1f9f848faSopenharmony_ci/*-
2f9f848faSopenharmony_ci * Copyright (c) 2007 Luigi Rizzo - Universita` di Pisa. All rights reserved.
3f9f848faSopenharmony_ci * Copyright (c) 2007 Hans Petter Selasky. All rights reserved.
4f9f848faSopenharmony_ci *
5f9f848faSopenharmony_ci * Redistribution and use in source and binary forms, with or without
6f9f848faSopenharmony_ci * modification, are permitted provided that the following conditions
7f9f848faSopenharmony_ci * are met:
8f9f848faSopenharmony_ci * 1. Redistributions of source code must retain the above copyright
9f9f848faSopenharmony_ci *    notice, this list of conditions and the following disclaimer.
10f9f848faSopenharmony_ci * 2. Redistributions in binary form must reproduce the above copyright
11f9f848faSopenharmony_ci *    notice, this list of conditions and the following disclaimer in the
12f9f848faSopenharmony_ci *    documentation and/or other materials provided with the distribution.
13f9f848faSopenharmony_ci *
14f9f848faSopenharmony_ci * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
15f9f848faSopenharmony_ci * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
16f9f848faSopenharmony_ci * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
17f9f848faSopenharmony_ci * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
18f9f848faSopenharmony_ci * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
19f9f848faSopenharmony_ci * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
20f9f848faSopenharmony_ci * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
21f9f848faSopenharmony_ci * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
22f9f848faSopenharmony_ci * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
23f9f848faSopenharmony_ci * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
24f9f848faSopenharmony_ci * SUCH DAMAGE.
25f9f848faSopenharmony_ci */
26f9f848faSopenharmony_ci
27f9f848faSopenharmony_ci#include <los_memory.h>
28f9f848faSopenharmony_ci#include "implementation/global_implementation.h"
29f9f848faSopenharmony_ci
30f9f848faSopenharmony_ci#undef USB_DEBUG_VAR
31f9f848faSopenharmony_ci#define USB_DEBUG_VAR   usb_debug
32f9f848faSopenharmony_ci
33f9f848faSopenharmony_ciSPIN_LOCK_INIT(g_usb_urb_list_spinlock);
34f9f848faSopenharmony_ci
35f9f848faSopenharmony_cistruct usb_linux_softc {
36f9f848faSopenharmony_ci	LIST_ENTRY(usb_linux_softc) sc_attached_list;
37f9f848faSopenharmony_ci
38f9f848faSopenharmony_ci	device_t sc_fbsd_dev;
39f9f848faSopenharmony_ci	struct usb_device *sc_fbsd_udev;
40f9f848faSopenharmony_ci	struct usb_interface *sc_ui;
41f9f848faSopenharmony_ci	struct usb_driver *sc_udrv;
42f9f848faSopenharmony_ci};
43f9f848faSopenharmony_ci
44f9f848faSopenharmony_ciextern struct mtx Gcall;
45f9f848faSopenharmony_ci
46f9f848faSopenharmony_ci/* prototypes */
47f9f848faSopenharmony_cistatic device_probe_t usb_linux_probe;
48f9f848faSopenharmony_cistatic device_attach_t usb_linux_attach;
49f9f848faSopenharmony_cistatic device_detach_t usb_linux_detach;
50f9f848faSopenharmony_cistatic device_suspend_t usb_linux_suspend;
51f9f848faSopenharmony_cistatic device_resume_t usb_linux_resume;
52f9f848faSopenharmony_ci
53f9f848faSopenharmony_cistatic usb_callback_t usb_linux_isoc_callback;
54f9f848faSopenharmony_cistatic usb_callback_t usb_linux_non_isoc_callback;
55f9f848faSopenharmony_ci
56f9f848faSopenharmony_cistatic usb_complete_t usb_linux_wait_complete;
57f9f848faSopenharmony_ci
58f9f848faSopenharmony_cistatic uint16_t	usb_max_isoc_frames(struct usb_device *);
59f9f848faSopenharmony_cistatic int	usb_start_wait_urb(struct urb *, usb_timeout_t, uint16_t *);
60f9f848faSopenharmony_cistatic const struct usb_device_id *usb_linux_lookup_id(
61f9f848faSopenharmony_ci		    const struct usb_device_id *, struct usb_attach_arg *);
62f9f848faSopenharmony_cistatic struct	usb_driver *usb_linux_get_usb_driver(struct usb_linux_softc *);
63f9f848faSopenharmony_cistatic int	usb_linux_create_usb_device(struct usb_device *, device_t);
64f9f848faSopenharmony_cistatic void	usb_linux_cleanup_interface(struct usb_device *,
65f9f848faSopenharmony_ci		    struct usb_interface *);
66f9f848faSopenharmony_cistatic void	usb_linux_complete(struct usb_xfer *);
67f9f848faSopenharmony_cistatic int	usb_unlink_urb_sub(struct urb *, uint8_t);
68f9f848faSopenharmony_ci
69f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
70f9f848faSopenharmony_ci * FreeBSD USB interface
71f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
72f9f848faSopenharmony_ci
73f9f848faSopenharmony_cistatic LIST_HEAD(, usb_linux_softc) usb_linux_attached_list;
74f9f848faSopenharmony_cistatic LIST_HEAD(, usb_driver) usb_linux_driver_list;
75f9f848faSopenharmony_ci
76f9f848faSopenharmony_cistatic device_method_t usb_linux_methods[] = {
77f9f848faSopenharmony_ci	/* Device interface */
78f9f848faSopenharmony_ci	DEVMETHOD(device_probe, usb_linux_probe),
79f9f848faSopenharmony_ci	DEVMETHOD(device_attach, usb_linux_attach),
80f9f848faSopenharmony_ci	DEVMETHOD(device_detach, usb_linux_detach),
81f9f848faSopenharmony_ci	DEVMETHOD(device_suspend, usb_linux_suspend),
82f9f848faSopenharmony_ci	DEVMETHOD(device_resume, usb_linux_resume),
83f9f848faSopenharmony_ci
84f9f848faSopenharmony_ci	DEVMETHOD_END
85f9f848faSopenharmony_ci};
86f9f848faSopenharmony_ci
87f9f848faSopenharmony_cistatic driver_t usb_linux_driver = {
88f9f848faSopenharmony_ci	.name = "usb_linux",
89f9f848faSopenharmony_ci	.methods = usb_linux_methods,
90f9f848faSopenharmony_ci	.size = sizeof(struct usb_linux_softc),
91f9f848faSopenharmony_ci};
92f9f848faSopenharmony_ci
93f9f848faSopenharmony_cistatic devclass_t usb_linux_devclass;
94f9f848faSopenharmony_ci
95f9f848faSopenharmony_ciDRIVER_MODULE(usb_linux, uhub, usb_linux_driver, usb_linux_devclass, NULL, 0);
96f9f848faSopenharmony_ci
97f9f848faSopenharmony_civoid
98f9f848faSopenharmony_ciusb_bcopy (const void *src, void *dest, size_t len)
99f9f848faSopenharmony_ci{
100f9f848faSopenharmony_ci	if (dest < src) {
101f9f848faSopenharmony_ci		const char *firsts = src;
102f9f848faSopenharmony_ci		char *firstd = dest;
103f9f848faSopenharmony_ci		while (len--) {
104f9f848faSopenharmony_ci			*firstd++ = *firsts++;
105f9f848faSopenharmony_ci		}
106f9f848faSopenharmony_ci	} else {
107f9f848faSopenharmony_ci		const char *lasts = (const char *)src + (len - 1);
108f9f848faSopenharmony_ci		char *lastd = (char *)dest + (len - 1);
109f9f848faSopenharmony_ci		while (len--)
110f9f848faSopenharmony_ci			*lastd-- = *lasts--;
111f9f848faSopenharmony_ci	}
112f9f848faSopenharmony_ci}
113f9f848faSopenharmony_ci
114f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
115f9f848faSopenharmony_ci *	usb_linux_lookup_id
116f9f848faSopenharmony_ci *
117f9f848faSopenharmony_ci * This functions takes an array of "struct usb_device_id" and tries
118f9f848faSopenharmony_ci * to match the entries with the information in "struct usb_attach_arg".
119f9f848faSopenharmony_ci * If it finds a match the matching entry will be returned.
120f9f848faSopenharmony_ci * Else "NULL" will be returned.
121f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
122f9f848faSopenharmony_cistatic const struct usb_device_id *
123f9f848faSopenharmony_ciusb_linux_lookup_id(const struct usb_device_id *id, struct usb_attach_arg *uaa)
124f9f848faSopenharmony_ci{
125f9f848faSopenharmony_ci	if ((id == NULL) || (uaa == NULL)) {
126f9f848faSopenharmony_ci		goto done;
127f9f848faSopenharmony_ci	}
128f9f848faSopenharmony_ci	/*
129f9f848faSopenharmony_ci	 * Keep on matching array entries until we find one with
130f9f848faSopenharmony_ci	 * "match_flags" equal to zero, which indicates the end of the
131f9f848faSopenharmony_ci	 * array:
132f9f848faSopenharmony_ci	 */
133f9f848faSopenharmony_ci	for (; id->match_flags; id++) {
134f9f848faSopenharmony_ci		if ((id->match_flags & USB_DEVICE_ID_MATCH_VENDOR) &&
135f9f848faSopenharmony_ci		    (id->idVendor != uaa->info.idVendor)) {
136f9f848faSopenharmony_ci			continue;
137f9f848faSopenharmony_ci		}
138f9f848faSopenharmony_ci		if ((id->match_flags & USB_DEVICE_ID_MATCH_PRODUCT) &&
139f9f848faSopenharmony_ci		    (id->idProduct != uaa->info.idProduct)) {
140f9f848faSopenharmony_ci			continue;
141f9f848faSopenharmony_ci		}
142f9f848faSopenharmony_ci		if ((id->match_flags & USB_DEVICE_ID_MATCH_DEV_LO) &&
143f9f848faSopenharmony_ci		    (id->bcdDevice_lo > uaa->info.bcdDevice)) {
144f9f848faSopenharmony_ci			continue;
145f9f848faSopenharmony_ci		}
146f9f848faSopenharmony_ci		if ((id->match_flags & USB_DEVICE_ID_MATCH_DEV_HI) &&
147f9f848faSopenharmony_ci		    (id->bcdDevice_hi < uaa->info.bcdDevice)) {
148f9f848faSopenharmony_ci			continue;
149f9f848faSopenharmony_ci		}
150f9f848faSopenharmony_ci		if ((id->match_flags & USB_DEVICE_ID_MATCH_DEV_CLASS) &&
151f9f848faSopenharmony_ci		    (id->bDeviceClass != uaa->info.bDeviceClass)) {
152f9f848faSopenharmony_ci			continue;
153f9f848faSopenharmony_ci		}
154f9f848faSopenharmony_ci		if ((id->match_flags & USB_DEVICE_ID_MATCH_DEV_SUBCLASS) &&
155f9f848faSopenharmony_ci		    (id->bDeviceSubClass != uaa->info.bDeviceSubClass)) {
156f9f848faSopenharmony_ci			continue;
157f9f848faSopenharmony_ci		}
158f9f848faSopenharmony_ci		if ((id->match_flags & USB_DEVICE_ID_MATCH_DEV_PROTOCOL) &&
159f9f848faSopenharmony_ci		    (id->bDeviceProtocol != uaa->info.bDeviceProtocol)) {
160f9f848faSopenharmony_ci			continue;
161f9f848faSopenharmony_ci		}
162f9f848faSopenharmony_ci		if ((uaa->info.bDeviceClass == 0xFF) &&
163f9f848faSopenharmony_ci		    !(id->match_flags & USB_DEVICE_ID_MATCH_VENDOR) &&
164f9f848faSopenharmony_ci		    (id->match_flags & (USB_DEVICE_ID_MATCH_INT_CLASS |
165f9f848faSopenharmony_ci		    USB_DEVICE_ID_MATCH_INT_SUBCLASS |
166f9f848faSopenharmony_ci		    USB_DEVICE_ID_MATCH_INT_PROTOCOL))) {
167f9f848faSopenharmony_ci			continue;
168f9f848faSopenharmony_ci		}
169f9f848faSopenharmony_ci		if ((id->match_flags & USB_DEVICE_ID_MATCH_INT_CLASS) &&
170f9f848faSopenharmony_ci		    (id->bInterfaceClass != uaa->info.bInterfaceClass)) {
171f9f848faSopenharmony_ci			continue;
172f9f848faSopenharmony_ci		}
173f9f848faSopenharmony_ci		if ((id->match_flags & USB_DEVICE_ID_MATCH_INT_SUBCLASS) &&
174f9f848faSopenharmony_ci		    (id->bInterfaceSubClass != uaa->info.bInterfaceSubClass)) {
175f9f848faSopenharmony_ci			continue;
176f9f848faSopenharmony_ci		}
177f9f848faSopenharmony_ci		if ((id->match_flags & USB_DEVICE_ID_MATCH_INT_PROTOCOL) &&
178f9f848faSopenharmony_ci		    (id->bInterfaceProtocol != uaa->info.bInterfaceProtocol)) {
179f9f848faSopenharmony_ci			continue;
180f9f848faSopenharmony_ci		}
181f9f848faSopenharmony_ci		/* we found a match! */
182f9f848faSopenharmony_ci		return (id);
183f9f848faSopenharmony_ci	}
184f9f848faSopenharmony_ci
185f9f848faSopenharmony_cidone:
186f9f848faSopenharmony_ci	return (NULL);
187f9f848faSopenharmony_ci}
188f9f848faSopenharmony_ci
189f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
190f9f848faSopenharmony_ci *	usb_linux_probe
191f9f848faSopenharmony_ci *
192f9f848faSopenharmony_ci * This function is the FreeBSD probe callback. It is called from the
193f9f848faSopenharmony_ci * FreeBSD USB stack through the "device_probe_and_attach()" function.
194f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
195f9f848faSopenharmony_cistatic int
196f9f848faSopenharmony_ciusb_linux_probe(device_t dev)
197f9f848faSopenharmony_ci{
198f9f848faSopenharmony_ci	struct usb_attach_arg *uaa = device_get_ivars(dev);
199f9f848faSopenharmony_ci	struct usb_driver *udrv;
200f9f848faSopenharmony_ci	int err = ENXIO;
201f9f848faSopenharmony_ci
202f9f848faSopenharmony_ci	if (uaa == NULL)
203f9f848faSopenharmony_ci		return (-1);
204f9f848faSopenharmony_ci	if (uaa->usb_mode != USB_MODE_HOST) {
205f9f848faSopenharmony_ci		return (ENXIO);
206f9f848faSopenharmony_ci	}
207f9f848faSopenharmony_ci	mtx_lock(&Giant);
208f9f848faSopenharmony_ci	LIST_FOREACH(udrv, &usb_linux_driver_list, linux_driver_list) {
209f9f848faSopenharmony_ci		if (usb_linux_lookup_id(udrv->id_table, uaa)) {
210f9f848faSopenharmony_ci			err = 0;
211f9f848faSopenharmony_ci			break;
212f9f848faSopenharmony_ci		}
213f9f848faSopenharmony_ci	}
214f9f848faSopenharmony_ci	mtx_unlock(&Giant);
215f9f848faSopenharmony_ci	return (err);
216f9f848faSopenharmony_ci}
217f9f848faSopenharmony_ci
218f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
219f9f848faSopenharmony_ci *      usb_linux_get_usb_driver
220f9f848faSopenharmony_ci *
221f9f848faSopenharmony_ci * This function returns the pointer to the "struct usb_driver" where
222f9f848faSopenharmony_ci * the Linux USB device driver "struct usb_device_id" match was found.
223f9f848faSopenharmony_ci * We apply a lock before reading out the pointer to avoid races.
224f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
225f9f848faSopenharmony_cistatic struct usb_driver *
226f9f848faSopenharmony_ciusb_linux_get_usb_driver(struct usb_linux_softc *sc)
227f9f848faSopenharmony_ci{
228f9f848faSopenharmony_ci        struct usb_driver *udrv = NULL;
229f9f848faSopenharmony_ci
230f9f848faSopenharmony_ci        mtx_lock(&Giant);
231f9f848faSopenharmony_ci        udrv = sc->sc_udrv;
232f9f848faSopenharmony_ci        mtx_unlock(&Giant);
233f9f848faSopenharmony_ci        return (udrv);
234f9f848faSopenharmony_ci}
235f9f848faSopenharmony_ci
236f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
237f9f848faSopenharmony_ci *	usb_linux_attach
238f9f848faSopenharmony_ci *
239f9f848faSopenharmony_ci * This function is the FreeBSD attach callback. It is called from the
240f9f848faSopenharmony_ci * FreeBSD USB stack through the "device_probe_and_attach()" function.
241f9f848faSopenharmony_ci * This function is called when "usb_linux_probe()" returns zero.
242f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
243f9f848faSopenharmony_cistatic int
244f9f848faSopenharmony_ciusb_linux_attach(device_t dev)
245f9f848faSopenharmony_ci{
246f9f848faSopenharmony_ci	struct usb_attach_arg *uaa = device_get_ivars(dev);
247f9f848faSopenharmony_ci	struct usb_linux_softc *sc = device_get_softc(dev);
248f9f848faSopenharmony_ci	struct usb_driver *udrv;
249f9f848faSopenharmony_ci	const struct usb_device_id *id = NULL;
250f9f848faSopenharmony_ci
251f9f848faSopenharmony_ci	mtx_lock(&Giant);
252f9f848faSopenharmony_ci	mtx_init(&Gcall, "Gcall", NULL, MTX_DEF | MTX_RECURSE);
253f9f848faSopenharmony_ci	LIST_FOREACH(udrv, &usb_linux_driver_list, linux_driver_list) {
254f9f848faSopenharmony_ci		id = usb_linux_lookup_id(udrv->id_table, uaa);
255f9f848faSopenharmony_ci		if (id)
256f9f848faSopenharmony_ci			break;
257f9f848faSopenharmony_ci	}
258f9f848faSopenharmony_ci	mtx_unlock(&Giant);
259f9f848faSopenharmony_ci
260f9f848faSopenharmony_ci	if (id == NULL) {
261f9f848faSopenharmony_ci		return (ENXIO);
262f9f848faSopenharmony_ci	}
263f9f848faSopenharmony_ci	if (usb_linux_create_usb_device(uaa->device, dev) != 0)
264f9f848faSopenharmony_ci		return (ENOMEM);
265f9f848faSopenharmony_ci	device_set_usb_desc(dev);
266f9f848faSopenharmony_ci
267f9f848faSopenharmony_ci	sc->sc_fbsd_udev = uaa->device;
268f9f848faSopenharmony_ci	sc->sc_fbsd_dev = dev;
269f9f848faSopenharmony_ci	sc->sc_udrv = udrv;
270f9f848faSopenharmony_ci	sc->sc_ui = usb_ifnum_to_if(uaa->device, uaa->info.bIfaceNum);
271f9f848faSopenharmony_ci	if (sc->sc_ui == NULL) {
272f9f848faSopenharmony_ci		return (EINVAL);
273f9f848faSopenharmony_ci	}
274f9f848faSopenharmony_ci	if (udrv->probe) {
275f9f848faSopenharmony_ci		if ((udrv->probe) (sc->sc_ui, id)) {
276f9f848faSopenharmony_ci			return (ENXIO);
277f9f848faSopenharmony_ci		}
278f9f848faSopenharmony_ci	}
279f9f848faSopenharmony_ci	mtx_lock(&Giant);
280f9f848faSopenharmony_ci	LIST_INSERT_HEAD(&usb_linux_attached_list, sc, sc_attached_list);
281f9f848faSopenharmony_ci	mtx_unlock(&Giant);
282f9f848faSopenharmony_ci
283f9f848faSopenharmony_ci	/* success */
284f9f848faSopenharmony_ci	return (0);
285f9f848faSopenharmony_ci}
286f9f848faSopenharmony_ci
287f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
288f9f848faSopenharmony_ci *	usb_linux_detach
289f9f848faSopenharmony_ci *
290f9f848faSopenharmony_ci * This function is the FreeBSD detach callback. It is called from the
291f9f848faSopenharmony_ci * FreeBSD USB stack through the "device_detach()" function.
292f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
293f9f848faSopenharmony_cistatic int
294f9f848faSopenharmony_ciusb_linux_detach(device_t dev)
295f9f848faSopenharmony_ci{
296f9f848faSopenharmony_ci	struct usb_linux_softc *sc = device_get_softc(dev);
297f9f848faSopenharmony_ci	struct usb_driver *udrv = NULL;
298f9f848faSopenharmony_ci
299f9f848faSopenharmony_ci	mtx_lock(&Giant);
300f9f848faSopenharmony_ci	if (sc == NULL) {
301f9f848faSopenharmony_ci		mtx_unlock(&Giant);
302f9f848faSopenharmony_ci		return (-1);
303f9f848faSopenharmony_ci	}
304f9f848faSopenharmony_ci	if (sc->sc_attached_list.le_prev) {
305f9f848faSopenharmony_ci		LIST_REMOVE(sc, sc_attached_list);
306f9f848faSopenharmony_ci		sc->sc_attached_list.le_prev = NULL;
307f9f848faSopenharmony_ci		udrv = sc->sc_udrv;
308f9f848faSopenharmony_ci		sc->sc_udrv = NULL;
309f9f848faSopenharmony_ci	}
310f9f848faSopenharmony_ci	mtx_unlock(&Giant);
311f9f848faSopenharmony_ci
312f9f848faSopenharmony_ci	if (udrv && udrv->disconnect) {
313f9f848faSopenharmony_ci		(udrv->disconnect) (sc->sc_ui);
314f9f848faSopenharmony_ci	}
315f9f848faSopenharmony_ci	/*
316f9f848faSopenharmony_ci	 * Make sure that we free all FreeBSD USB transfers belonging to
317f9f848faSopenharmony_ci	 * this Linux "usb_interface", hence they will most likely not be
318f9f848faSopenharmony_ci	 * needed any more.
319f9f848faSopenharmony_ci	 */
320f9f848faSopenharmony_ci	usb_linux_cleanup_interface(sc->sc_fbsd_udev, sc->sc_ui);
321f9f848faSopenharmony_ci	return (0);
322f9f848faSopenharmony_ci}
323f9f848faSopenharmony_ci
324f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
325f9f848faSopenharmony_ci *	usb_linux_suspend
326f9f848faSopenharmony_ci *
327f9f848faSopenharmony_ci * This function is the FreeBSD suspend callback. Usually it does nothing.
328f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
329f9f848faSopenharmony_cistatic int
330f9f848faSopenharmony_ciusb_linux_suspend(device_t dev)
331f9f848faSopenharmony_ci{
332f9f848faSopenharmony_ci	struct usb_linux_softc *sc = device_get_softc(dev);
333f9f848faSopenharmony_ci	struct usb_driver *udrv = usb_linux_get_usb_driver(sc);
334f9f848faSopenharmony_ci	int err = 0;
335f9f848faSopenharmony_ci
336f9f848faSopenharmony_ci	if (udrv && udrv->suspend) {
337f9f848faSopenharmony_ci		err = (udrv->suspend) (sc->sc_ui, 0);
338f9f848faSopenharmony_ci	}
339f9f848faSopenharmony_ci	return err;
340f9f848faSopenharmony_ci}
341f9f848faSopenharmony_ci
342f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
343f9f848faSopenharmony_ci *	usb_linux_resume
344f9f848faSopenharmony_ci *
345f9f848faSopenharmony_ci * This function is the FreeBSD resume callback. Usually it does nothing.
346f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
347f9f848faSopenharmony_cistatic int
348f9f848faSopenharmony_ciusb_linux_resume(device_t dev)
349f9f848faSopenharmony_ci{
350f9f848faSopenharmony_ci	struct usb_linux_softc *sc = device_get_softc(dev);
351f9f848faSopenharmony_ci	struct usb_driver *udrv = usb_linux_get_usb_driver(sc);
352f9f848faSopenharmony_ci	int err = 0;
353f9f848faSopenharmony_ci
354f9f848faSopenharmony_ci	if (udrv && udrv->resume) {
355f9f848faSopenharmony_ci		err = (udrv->resume) (sc->sc_ui);
356f9f848faSopenharmony_ci	}
357f9f848faSopenharmony_ci	return err;
358f9f848faSopenharmony_ci}
359f9f848faSopenharmony_ci
360f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
361f9f848faSopenharmony_ci * Linux emulation layer
362f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
363f9f848faSopenharmony_ci
364f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
365f9f848faSopenharmony_ci *	usb_max_isoc_frames
366f9f848faSopenharmony_ci *
367f9f848faSopenharmony_ci * The following function returns the maximum number of isochronous
368f9f848faSopenharmony_ci * frames that we support per URB. It is not part of the Linux USB API.
369f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
370f9f848faSopenharmony_cistatic uint16_t
371f9f848faSopenharmony_ciusb_max_isoc_frames(struct usb_device *dev)
372f9f848faSopenharmony_ci{
373f9f848faSopenharmony_ci	/* indent fix */
374f9f848faSopenharmony_ci	switch (usbd_get_speed(dev)) {
375f9f848faSopenharmony_ci	case USB_SPEED_LOW:
376f9f848faSopenharmony_ci	case USB_SPEED_FULL:
377f9f848faSopenharmony_ci		return (USB_MAX_FULL_SPEED_ISOC_FRAMES);
378f9f848faSopenharmony_ci	default:
379f9f848faSopenharmony_ci		return (USB_MAX_HIGH_SPEED_ISOC_FRAMES);
380f9f848faSopenharmony_ci	}
381f9f848faSopenharmony_ci}
382f9f848faSopenharmony_ci
383f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
384f9f848faSopenharmony_ci *	usb_submit_urb
385f9f848faSopenharmony_ci *
386f9f848faSopenharmony_ci * This function is used to queue an URB after that it has been
387f9f848faSopenharmony_ci * initialized. If it returns non-zero, it means that the URB was not
388f9f848faSopenharmony_ci * queued.
389f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
390f9f848faSopenharmony_ciint
391f9f848faSopenharmony_ciusb_submit_urb(struct urb *urb, uint16_t mem_flags)
392f9f848faSopenharmony_ci{
393f9f848faSopenharmony_ci	struct usb_host_endpoint *uhe;
394f9f848faSopenharmony_ci	uint8_t do_unlock;
395f9f848faSopenharmony_ci	int err;
396f9f848faSopenharmony_ci	uint32_t int_save;
397f9f848faSopenharmony_ci
398f9f848faSopenharmony_ci	if (urb == NULL)
399f9f848faSopenharmony_ci		return (-EINVAL);
400f9f848faSopenharmony_ci
401f9f848faSopenharmony_ci	do_unlock = mtx_owned(&Giant) ? 0 : 1;
402f9f848faSopenharmony_ci	if (do_unlock)
403f9f848faSopenharmony_ci		mtx_lock(&Giant);
404f9f848faSopenharmony_ci
405f9f848faSopenharmony_ci	if (urb->endpoint == NULL) {
406f9f848faSopenharmony_ci		err = -EINVAL;
407f9f848faSopenharmony_ci		goto done;
408f9f848faSopenharmony_ci	}
409f9f848faSopenharmony_ci
410f9f848faSopenharmony_ci	/*
411f9f848faSopenharmony_ci	 * Check to see if the urb is in the process of being killed
412f9f848faSopenharmony_ci	 * and stop a urb that is in the process of being killed from
413f9f848faSopenharmony_ci	 * being re-submitted (e.g. from its completion callback
414f9f848faSopenharmony_ci	 * function).
415f9f848faSopenharmony_ci	 */
416f9f848faSopenharmony_ci	if (urb->kill_count != 0) {
417f9f848faSopenharmony_ci		err = -EPERM;
418f9f848faSopenharmony_ci		goto done;
419f9f848faSopenharmony_ci	}
420f9f848faSopenharmony_ci
421f9f848faSopenharmony_ci	uhe = urb->endpoint;
422f9f848faSopenharmony_ci
423f9f848faSopenharmony_ci	/*
424f9f848faSopenharmony_ci	 * Check that we have got a FreeBSD USB transfer that will dequeue
425f9f848faSopenharmony_ci	 * the URB structure and do the real transfer. If there are no USB
426f9f848faSopenharmony_ci	 * transfers, then we return an error.
427f9f848faSopenharmony_ci	 */
428f9f848faSopenharmony_ci	if (uhe->bsd_xfer[0] ||
429f9f848faSopenharmony_ci	    uhe->bsd_xfer[1]) {
430f9f848faSopenharmony_ci		/* we are ready! */
431f9f848faSopenharmony_ci		LOS_SpinLockSave(&g_usb_urb_list_spinlock, &int_save);
432f9f848faSopenharmony_ci		TAILQ_INSERT_TAIL(&uhe->bsd_urb_list, urb, bsd_urb_list);
433f9f848faSopenharmony_ci		LOS_SpinUnlockRestore(&g_usb_urb_list_spinlock, int_save);
434f9f848faSopenharmony_ci
435f9f848faSopenharmony_ci		urb->status = -EINPROGRESS;
436f9f848faSopenharmony_ci
437f9f848faSopenharmony_ci		usbd_transfer_start(uhe->bsd_xfer[0]);
438f9f848faSopenharmony_ci		usbd_transfer_start(uhe->bsd_xfer[1]);
439f9f848faSopenharmony_ci		err = 0;
440f9f848faSopenharmony_ci	} else {
441f9f848faSopenharmony_ci		/* no pipes have been setup yet! */
442f9f848faSopenharmony_ci		urb->status = -EINVAL;
443f9f848faSopenharmony_ci		err = -EINVAL;
444f9f848faSopenharmony_ci	}
445f9f848faSopenharmony_cidone:
446f9f848faSopenharmony_ci	if (do_unlock)
447f9f848faSopenharmony_ci		mtx_unlock(&Giant);
448f9f848faSopenharmony_ci	return (err);
449f9f848faSopenharmony_ci}
450f9f848faSopenharmony_ci
451f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
452f9f848faSopenharmony_ci *	usb_unlink_urb
453f9f848faSopenharmony_ci *
454f9f848faSopenharmony_ci * This function is used to stop an URB after that it is been
455f9f848faSopenharmony_ci * submitted, but before the "complete" callback has been called. On
456f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
457f9f848faSopenharmony_ciint
458f9f848faSopenharmony_ciusb_unlink_urb(struct urb *urb)
459f9f848faSopenharmony_ci{
460f9f848faSopenharmony_ci	return (usb_unlink_urb_sub(urb, 0));
461f9f848faSopenharmony_ci}
462f9f848faSopenharmony_ci
463f9f848faSopenharmony_cistatic void
464f9f848faSopenharmony_ciusb_unlink_bsd(struct usb_xfer *xfer,
465f9f848faSopenharmony_ci    struct urb *urb, uint8_t drain)
466f9f848faSopenharmony_ci{
467f9f848faSopenharmony_ci	if (xfer == NULL)
468f9f848faSopenharmony_ci		return;
469f9f848faSopenharmony_ci	if (!usbd_transfer_pending(xfer))
470f9f848faSopenharmony_ci		return;
471f9f848faSopenharmony_ci	if (xfer->priv_fifo == (void *)urb) {
472f9f848faSopenharmony_ci		if (drain) {
473f9f848faSopenharmony_ci			mtx_unlock(&Giant);
474f9f848faSopenharmony_ci			usbd_transfer_drain(xfer);
475f9f848faSopenharmony_ci			mtx_lock(&Giant);
476f9f848faSopenharmony_ci		} else {
477f9f848faSopenharmony_ci			usbd_transfer_stop(xfer);
478f9f848faSopenharmony_ci		}
479f9f848faSopenharmony_ci		usbd_transfer_start(xfer);
480f9f848faSopenharmony_ci	}
481f9f848faSopenharmony_ci}
482f9f848faSopenharmony_ci
483f9f848faSopenharmony_cistatic int
484f9f848faSopenharmony_ciusb_unlink_urb_sub(struct urb *urb, uint8_t drain)
485f9f848faSopenharmony_ci{
486f9f848faSopenharmony_ci	struct usb_host_endpoint *uhe;
487f9f848faSopenharmony_ci	uint16_t x;
488f9f848faSopenharmony_ci	uint8_t do_unlock;
489f9f848faSopenharmony_ci	int err;
490f9f848faSopenharmony_ci	uint32_t int_save;
491f9f848faSopenharmony_ci
492f9f848faSopenharmony_ci	if (urb == NULL)
493f9f848faSopenharmony_ci		return (-EINVAL);
494f9f848faSopenharmony_ci
495f9f848faSopenharmony_ci	do_unlock = mtx_owned(&Giant) ? 0 : 1;
496f9f848faSopenharmony_ci	if (do_unlock)
497f9f848faSopenharmony_ci		mtx_lock(&Giant);
498f9f848faSopenharmony_ci	if (drain)
499f9f848faSopenharmony_ci		urb->kill_count++;
500f9f848faSopenharmony_ci
501f9f848faSopenharmony_ci	if (urb->endpoint == NULL) {
502f9f848faSopenharmony_ci		err = -EINVAL;
503f9f848faSopenharmony_ci		goto done;
504f9f848faSopenharmony_ci	}
505f9f848faSopenharmony_ci	uhe = urb->endpoint;
506f9f848faSopenharmony_ci
507f9f848faSopenharmony_ci	if (urb->bsd_urb_list.tqe_prev) {
508f9f848faSopenharmony_ci		/* not started yet, just remove it from the queue */
509f9f848faSopenharmony_ci		LOS_SpinLockSave(&g_usb_urb_list_spinlock, &int_save);
510f9f848faSopenharmony_ci		TAILQ_REMOVE(&uhe->bsd_urb_list, urb, bsd_urb_list);
511f9f848faSopenharmony_ci		urb->bsd_urb_list.tqe_prev = NULL;
512f9f848faSopenharmony_ci		LOS_SpinUnlockRestore(&g_usb_urb_list_spinlock, int_save);
513f9f848faSopenharmony_ci		urb->status = -ECONNRESET;
514f9f848faSopenharmony_ci		urb->actual_length = 0;
515f9f848faSopenharmony_ci
516f9f848faSopenharmony_ci		for (x = 0; x < urb->number_of_packets; x++) {
517f9f848faSopenharmony_ci			urb->iso_frame_desc[x].actual_length = 0;
518f9f848faSopenharmony_ci		}
519f9f848faSopenharmony_ci
520f9f848faSopenharmony_ci		if (urb->complete) {
521f9f848faSopenharmony_ci			(urb->complete)(urb);
522f9f848faSopenharmony_ci		}
523f9f848faSopenharmony_ci	} else {
524f9f848faSopenharmony_ci		/*
525f9f848faSopenharmony_ci		 * If the URB is not on the URB list, then check if one of
526f9f848faSopenharmony_ci		 * the FreeBSD USB transfer are processing the current URB.
527f9f848faSopenharmony_ci		 * If so, re-start that transfer, which will lead to the
528f9f848faSopenharmony_ci		 * termination of that URB:
529f9f848faSopenharmony_ci		 */
530f9f848faSopenharmony_ci		usb_unlink_bsd(uhe->bsd_xfer[0], urb, drain);
531f9f848faSopenharmony_ci		usb_unlink_bsd(uhe->bsd_xfer[1], urb, drain);
532f9f848faSopenharmony_ci	}
533f9f848faSopenharmony_ci	err = 0;
534f9f848faSopenharmony_cidone:
535f9f848faSopenharmony_ci	if (drain)
536f9f848faSopenharmony_ci		urb->kill_count--;
537f9f848faSopenharmony_ci	if (do_unlock)
538f9f848faSopenharmony_ci		mtx_unlock(&Giant);
539f9f848faSopenharmony_ci	return (err);
540f9f848faSopenharmony_ci}
541f9f848faSopenharmony_ci
542f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
543f9f848faSopenharmony_ci *	usb_clear_halt
544f9f848faSopenharmony_ci *
545f9f848faSopenharmony_ci * This function must always be used to clear the stall. Stall is when
546f9f848faSopenharmony_ci * an USB endpoint returns a stall message to the USB host controller.
547f9f848faSopenharmony_ci * Until the stall is cleared, no data can be transferred.
548f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
549f9f848faSopenharmony_ciint
550f9f848faSopenharmony_ciusb_clear_halt(struct usb_device *dev, struct usb_host_endpoint *uhe)
551f9f848faSopenharmony_ci{
552f9f848faSopenharmony_ci	struct usb_config cfg[1];
553f9f848faSopenharmony_ci	struct usb_endpoint *ep;
554f9f848faSopenharmony_ci	uint8_t type;
555f9f848faSopenharmony_ci	uint8_t addr;
556f9f848faSopenharmony_ci
557f9f848faSopenharmony_ci	if (uhe == NULL)
558f9f848faSopenharmony_ci		return (-EINVAL);
559f9f848faSopenharmony_ci
560f9f848faSopenharmony_ci	type = uhe->desc.bmAttributes & UE_XFERTYPE;
561f9f848faSopenharmony_ci	addr = uhe->desc.bEndpointAddress;
562f9f848faSopenharmony_ci
563f9f848faSopenharmony_ci	(void)memset_s(cfg, sizeof(cfg), 0, sizeof(cfg));
564f9f848faSopenharmony_ci
565f9f848faSopenharmony_ci	cfg[0].type = type;
566f9f848faSopenharmony_ci	cfg[0].endpoint = addr & UE_ADDR;
567f9f848faSopenharmony_ci	cfg[0].direction = addr & (UE_DIR_OUT | UE_DIR_IN);
568f9f848faSopenharmony_ci
569f9f848faSopenharmony_ci	ep = usbd_get_endpoint(dev, uhe->bsd_iface_index, cfg);
570f9f848faSopenharmony_ci	if (ep == NULL)
571f9f848faSopenharmony_ci		return (-EINVAL);
572f9f848faSopenharmony_ci
573f9f848faSopenharmony_ci	usbd_clear_data_toggle(dev, ep);
574f9f848faSopenharmony_ci
575f9f848faSopenharmony_ci	return (usb_control_msg(dev, &dev->ep0,
576f9f848faSopenharmony_ci	    UR_CLEAR_FEATURE, UT_WRITE_ENDPOINT,
577f9f848faSopenharmony_ci	    UF_ENDPOINT_HALT, addr, NULL, 0, 1000));
578f9f848faSopenharmony_ci}
579f9f848faSopenharmony_ci
580f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
581f9f848faSopenharmony_ci *	usb_start_wait_urb
582f9f848faSopenharmony_ci *
583f9f848faSopenharmony_ci * This is an internal function that is used to perform synchronous
584f9f848faSopenharmony_ci * Linux USB transfers.
585f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
586f9f848faSopenharmony_cistatic int
587f9f848faSopenharmony_ciusb_start_wait_urb(struct urb *urb, usb_timeout_t timeout, uint16_t *p_actlen)
588f9f848faSopenharmony_ci{
589f9f848faSopenharmony_ci	int err;
590f9f848faSopenharmony_ci	uint8_t do_unlock;
591f9f848faSopenharmony_ci
592f9f848faSopenharmony_ci	/* you must have a timeout! */
593f9f848faSopenharmony_ci	if (timeout == 0) {
594f9f848faSopenharmony_ci		timeout = 1;
595f9f848faSopenharmony_ci	}
596f9f848faSopenharmony_ci	urb->complete = &usb_linux_wait_complete;
597f9f848faSopenharmony_ci	urb->timeout = timeout;
598f9f848faSopenharmony_ci	urb->transfer_flags |= URB_WAIT_WAKEUP;
599f9f848faSopenharmony_ci	urb->transfer_flags &= ~URB_IS_SLEEPING;
600f9f848faSopenharmony_ci
601f9f848faSopenharmony_ci	do_unlock = mtx_owned(&Giant) ? 0 : 1;
602f9f848faSopenharmony_ci	if (do_unlock)
603f9f848faSopenharmony_ci		mtx_lock(&Giant);
604f9f848faSopenharmony_ci	err = usb_submit_urb(urb, 0);
605f9f848faSopenharmony_ci	if (err)
606f9f848faSopenharmony_ci		goto done;
607f9f848faSopenharmony_ci
608f9f848faSopenharmony_ci	/*
609f9f848faSopenharmony_ci	 * the URB might have completed before we get here, so check that by
610f9f848faSopenharmony_ci	 * using some flags!
611f9f848faSopenharmony_ci	 */
612f9f848faSopenharmony_ci	while (urb->transfer_flags & URB_WAIT_WAKEUP) {
613f9f848faSopenharmony_ci		urb->transfer_flags |= URB_IS_SLEEPING;
614f9f848faSopenharmony_ci		(void)cv_wait(&urb->cv_wait, &Giant);
615f9f848faSopenharmony_ci		urb->transfer_flags &= ~URB_IS_SLEEPING;
616f9f848faSopenharmony_ci	}
617f9f848faSopenharmony_ci
618f9f848faSopenharmony_ci	err = urb->status;
619f9f848faSopenharmony_ci
620f9f848faSopenharmony_cidone:
621f9f848faSopenharmony_ci	if (do_unlock)
622f9f848faSopenharmony_ci		mtx_unlock(&Giant);
623f9f848faSopenharmony_ci	if (p_actlen != NULL) {
624f9f848faSopenharmony_ci		if (err)
625f9f848faSopenharmony_ci			*p_actlen = 0;
626f9f848faSopenharmony_ci		else
627f9f848faSopenharmony_ci			*p_actlen = urb->actual_length;
628f9f848faSopenharmony_ci	}
629f9f848faSopenharmony_ci	return (err);
630f9f848faSopenharmony_ci}
631f9f848faSopenharmony_ci
632f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
633f9f848faSopenharmony_ci *	usb_control_msg
634f9f848faSopenharmony_ci *
635f9f848faSopenharmony_ci * The following function performs a control transfer sequence one any
636f9f848faSopenharmony_ci * control, bulk or interrupt endpoint, specified by "uhe". A control
637f9f848faSopenharmony_ci * transfer means that you transfer an 8-byte header first followed by
638f9f848faSopenharmony_ci * a data-phase as indicated by the 8-byte header. The "timeout" is
639f9f848faSopenharmony_ci * given in milliseconds.
640f9f848faSopenharmony_ci *
641f9f848faSopenharmony_ci * Return values:
642f9f848faSopenharmony_ci *   0: Success
643f9f848faSopenharmony_ci * < 0: Failure
644f9f848faSopenharmony_ci * > 0: Actual length
645f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
646f9f848faSopenharmony_ciint
647f9f848faSopenharmony_ciusb_control_msg(struct usb_device *dev, struct usb_host_endpoint *uhe,
648f9f848faSopenharmony_ci    uint8_t request, uint8_t requesttype,
649f9f848faSopenharmony_ci    uint16_t value, uint16_t index, void *data,
650f9f848faSopenharmony_ci    uint16_t size, usb_timeout_t timeout)
651f9f848faSopenharmony_ci{
652f9f848faSopenharmony_ci	struct usb_device_request req;
653f9f848faSopenharmony_ci	struct urb *urb;
654f9f848faSopenharmony_ci	int err;
655f9f848faSopenharmony_ci	uint16_t actlen = 0;
656f9f848faSopenharmony_ci	uint8_t type;
657f9f848faSopenharmony_ci	uint8_t addr;
658f9f848faSopenharmony_ci
659f9f848faSopenharmony_ci	req.bmRequestType = requesttype;
660f9f848faSopenharmony_ci	req.bRequest = request;
661f9f848faSopenharmony_ci	USETW(req.wValue, value);
662f9f848faSopenharmony_ci	USETW(req.wIndex, index);
663f9f848faSopenharmony_ci	USETW(req.wLength, size);
664f9f848faSopenharmony_ci
665f9f848faSopenharmony_ci	if (uhe == NULL) {
666f9f848faSopenharmony_ci		return (-EINVAL);
667f9f848faSopenharmony_ci	}
668f9f848faSopenharmony_ci	type = (uhe->desc.bmAttributes & UE_XFERTYPE);
669f9f848faSopenharmony_ci	addr = (uhe->desc.bEndpointAddress & UE_ADDR);
670f9f848faSopenharmony_ci
671f9f848faSopenharmony_ci	if (type != UE_CONTROL) {
672f9f848faSopenharmony_ci		return (-EINVAL);
673f9f848faSopenharmony_ci	}
674f9f848faSopenharmony_ci	if (addr == 0) {
675f9f848faSopenharmony_ci		/*
676f9f848faSopenharmony_ci		 * The FreeBSD USB stack supports standard control
677f9f848faSopenharmony_ci		 * transfers on control endpoint zero:
678f9f848faSopenharmony_ci		 */
679f9f848faSopenharmony_ci		err = usbd_do_request_flags(dev,
680f9f848faSopenharmony_ci		    NULL, &req, data, USB_SHORT_XFER_OK,
681f9f848faSopenharmony_ci		    &actlen, timeout);
682f9f848faSopenharmony_ci		if (err) {
683f9f848faSopenharmony_ci			err = -EPIPE;
684f9f848faSopenharmony_ci		} else {
685f9f848faSopenharmony_ci			err = actlen;
686f9f848faSopenharmony_ci		}
687f9f848faSopenharmony_ci		return (err);
688f9f848faSopenharmony_ci	}
689f9f848faSopenharmony_ci	if (dev->flags.usb_mode != USB_MODE_HOST) {
690f9f848faSopenharmony_ci		/* not supported */
691f9f848faSopenharmony_ci		return (-EINVAL);
692f9f848faSopenharmony_ci	}
693f9f848faSopenharmony_ci	err = usb_setup_endpoint(dev, uhe, 1 /* dummy */ );
694f9f848faSopenharmony_ci
695f9f848faSopenharmony_ci	/*
696f9f848faSopenharmony_ci	 * NOTE: we need to allocate real memory here so that we don't
697f9f848faSopenharmony_ci	 * transfer data to/from the stack!
698f9f848faSopenharmony_ci	 *
699f9f848faSopenharmony_ci	 * 0xFFFF is a FreeBSD specific magic value.
700f9f848faSopenharmony_ci	 */
701f9f848faSopenharmony_ci	urb = usb_alloc_urb(0xFFFF, size);
702f9f848faSopenharmony_ci	if (urb == NULL)
703f9f848faSopenharmony_ci		return (-ENOMEM);
704f9f848faSopenharmony_ci
705f9f848faSopenharmony_ci	urb->dev = dev;
706f9f848faSopenharmony_ci	urb->endpoint = uhe;
707f9f848faSopenharmony_ci
708f9f848faSopenharmony_ci	(void)memcpy_s(urb->setup_packet, (sizeof(req) + size), &req, sizeof(req));
709f9f848faSopenharmony_ci
710f9f848faSopenharmony_ci	if (size && (!(req.bmRequestType & UT_READ))) {
711f9f848faSopenharmony_ci		/* move the data to a real buffer */
712f9f848faSopenharmony_ci		(void)memcpy_s(USB_ADD_BYTES(urb->setup_packet, sizeof(req)), size,
713f9f848faSopenharmony_ci		    data, size);
714f9f848faSopenharmony_ci	}
715f9f848faSopenharmony_ci
716f9f848faSopenharmony_ci	err = usb_start_wait_urb(urb, timeout, &actlen);
717f9f848faSopenharmony_ci	if (req.bmRequestType & UT_READ) {
718f9f848faSopenharmony_ci		if (actlen) {
719f9f848faSopenharmony_ci			usb_bcopy(USB_ADD_BYTES(urb->setup_packet,
720f9f848faSopenharmony_ci			    sizeof(req)), data, actlen);
721f9f848faSopenharmony_ci		}
722f9f848faSopenharmony_ci	}
723f9f848faSopenharmony_ci	usb_free_urb(urb);
724f9f848faSopenharmony_ci
725f9f848faSopenharmony_ci	if (err == 0) {
726f9f848faSopenharmony_ci		err = actlen;
727f9f848faSopenharmony_ci	}
728f9f848faSopenharmony_ci	return (err);
729f9f848faSopenharmony_ci}
730f9f848faSopenharmony_ci
731f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
732f9f848faSopenharmony_ci *	usb_set_interface
733f9f848faSopenharmony_ci *
734f9f848faSopenharmony_ci * The following function will select which alternate setting of an
735f9f848faSopenharmony_ci * USB interface you plan to use. By default alternate setting with
736f9f848faSopenharmony_ci * index zero is selected. Note that "iface_no" is not the interface
737f9f848faSopenharmony_ci * index, but rather the value of "bInterfaceNumber".
738f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
739f9f848faSopenharmony_ciint
740f9f848faSopenharmony_ciusb_set_interface(struct usb_device *dev, uint8_t iface_no, uint8_t alt_index)
741f9f848faSopenharmony_ci{
742f9f848faSopenharmony_ci	struct usb_interface *p_ui = usb_ifnum_to_if(dev, iface_no);
743f9f848faSopenharmony_ci	int err;
744f9f848faSopenharmony_ci
745f9f848faSopenharmony_ci	if (p_ui == NULL)
746f9f848faSopenharmony_ci		return (-EINVAL);
747f9f848faSopenharmony_ci	if (alt_index >= p_ui->num_altsetting)
748f9f848faSopenharmony_ci		return (-EINVAL);
749f9f848faSopenharmony_ci	usb_linux_cleanup_interface(dev, p_ui);
750f9f848faSopenharmony_ci	err = -usbd_set_alt_interface_index(dev,
751f9f848faSopenharmony_ci	    p_ui->bsd_iface_index, alt_index);
752f9f848faSopenharmony_ci	if (err == 0) {
753f9f848faSopenharmony_ci		p_ui->cur_altsetting = p_ui->altsetting + alt_index;
754f9f848faSopenharmony_ci	}
755f9f848faSopenharmony_ci	return (err);
756f9f848faSopenharmony_ci}
757f9f848faSopenharmony_ci
758f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
759f9f848faSopenharmony_ci *	usb_setup_endpoint
760f9f848faSopenharmony_ci *
761f9f848faSopenharmony_ci * The following function is an extension to the Linux USB API that
762f9f848faSopenharmony_ci * allows you to set a maximum buffer size for a given USB endpoint.
763f9f848faSopenharmony_ci * The maximum buffer size is per URB. If you don't call this function
764f9f848faSopenharmony_ci * to set a maximum buffer size, the endpoint will not be functional.
765f9f848faSopenharmony_ci * Note that for isochronous endpoints the maximum buffer size must be
766f9f848faSopenharmony_ci * a non-zero dummy, hence this function will base the maximum buffer
767f9f848faSopenharmony_ci * size on "wMaxPacketSize".
768f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
769f9f848faSopenharmony_ciint
770f9f848faSopenharmony_ciusb_setup_endpoint_agg(struct usb_device *dev,
771f9f848faSopenharmony_ci    struct usb_host_endpoint *uhe, usb_size_t bufsize, uint32_t packets)
772f9f848faSopenharmony_ci{
773f9f848faSopenharmony_ci	struct usb_config cfg[2];
774f9f848faSopenharmony_ci	uint8_t type = uhe->desc.bmAttributes & UE_XFERTYPE;
775f9f848faSopenharmony_ci	uint8_t addr = uhe->desc.bEndpointAddress;
776f9f848faSopenharmony_ci
777f9f848faSopenharmony_ci	if (uhe->fbsd_buf_size == bufsize) {
778f9f848faSopenharmony_ci		/* optimize */
779f9f848faSopenharmony_ci		return (0);
780f9f848faSopenharmony_ci	}
781f9f848faSopenharmony_ci	usbd_transfer_unsetup(uhe->bsd_xfer, 2);
782f9f848faSopenharmony_ci
783f9f848faSopenharmony_ci	uhe->fbsd_buf_size = bufsize;
784f9f848faSopenharmony_ci
785f9f848faSopenharmony_ci	if (bufsize == 0) {
786f9f848faSopenharmony_ci		return (0);
787f9f848faSopenharmony_ci	}
788f9f848faSopenharmony_ci	(void)memset_s(cfg, sizeof(cfg), 0, sizeof(cfg));
789f9f848faSopenharmony_ci
790f9f848faSopenharmony_ci	if (type == UE_ISOCHRONOUS) {
791f9f848faSopenharmony_ci		/*
792f9f848faSopenharmony_ci		 * Isochronous transfers are special in that they don't fit
793f9f848faSopenharmony_ci		 * into the BULK/INTR/CONTROL transfer model.
794f9f848faSopenharmony_ci		 */
795f9f848faSopenharmony_ci
796f9f848faSopenharmony_ci		cfg[0].type = type;
797f9f848faSopenharmony_ci		cfg[0].endpoint = addr & UE_ADDR;
798f9f848faSopenharmony_ci		cfg[0].direction = addr & (UE_DIR_OUT | UE_DIR_IN);
799f9f848faSopenharmony_ci		cfg[0].callback = &usb_linux_isoc_callback;
800f9f848faSopenharmony_ci		cfg[0].bufsize = 0;	/* use wMaxPacketSize */
801f9f848faSopenharmony_ci		cfg[0].frames = usb_max_isoc_frames(dev);
802f9f848faSopenharmony_ci		cfg[0].flags.proxy_buffer = 1;
803f9f848faSopenharmony_ci
804f9f848faSopenharmony_ci		cfg[0].flags.short_xfer_ok = 1;
805f9f848faSopenharmony_ci
806f9f848faSopenharmony_ci		usb_bcopy(cfg, cfg + 1, sizeof(*cfg));
807f9f848faSopenharmony_ci
808f9f848faSopenharmony_ci		/* Allocate and setup two generic FreeBSD USB transfers */
809f9f848faSopenharmony_ci
810f9f848faSopenharmony_ci		if (usbd_transfer_setup(dev, &uhe->bsd_iface_index,
811f9f848faSopenharmony_ci		    uhe->bsd_xfer, cfg, 2, uhe, &Giant)) {
812f9f848faSopenharmony_ci			return (-EINVAL);
813f9f848faSopenharmony_ci		}
814f9f848faSopenharmony_ci	} else {
815f9f848faSopenharmony_ci		if (bufsize > (1 << 22)) {
816f9f848faSopenharmony_ci			/* limit buffer size */
817f9f848faSopenharmony_ci			bufsize = (1 << 22);
818f9f848faSopenharmony_ci		}
819f9f848faSopenharmony_ci		/* Allocate and setup one generic FreeBSD USB transfer */
820f9f848faSopenharmony_ci
821f9f848faSopenharmony_ci		cfg[0].type = type;
822f9f848faSopenharmony_ci#ifndef LOSCFG_DRIVERS_HDF_USB_DDK_HOST
823f9f848faSopenharmony_ci		cfg[0].endpoint = addr & UE_ADDR;
824f9f848faSopenharmony_ci		cfg[0].direction = addr & (UE_DIR_OUT | UE_DIR_IN);
825f9f848faSopenharmony_ci		if (packets > 0)
826f9f848faSopenharmony_ci			cfg[0].frames = packets <= USB_FRAMES_MAX ? packets : USB_FRAMES_MAX;
827f9f848faSopenharmony_ci		cfg[0].callback = &usb_linux_non_isoc_callback;
828f9f848faSopenharmony_ci		cfg[0].bufsize = bufsize;
829f9f848faSopenharmony_ci		cfg[0].flags.ext_buffer = 1;	/* enable zero-copy */
830f9f848faSopenharmony_ci		cfg[0].flags.proxy_buffer = 1;
831f9f848faSopenharmony_ci#else
832f9f848faSopenharmony_ci		cfg[0].endpoint = UE_ADDR_ANY;
833f9f848faSopenharmony_ci		cfg[0].direction = addr & (UE_DIR_OUT | UE_DIR_IN);
834f9f848faSopenharmony_ci		if (packets > 0){
835f9f848faSopenharmony_ci			cfg[0].frames = packets <= USB_FRAMES_MAX ? packets : USB_FRAMES_MAX;
836f9f848faSopenharmony_ci        }
837f9f848faSopenharmony_ci		cfg[0].callback = &usb_linux_non_isoc_callback;
838f9f848faSopenharmony_ci		cfg[0].bufsize = bufsize;
839f9f848faSopenharmony_ci        cfg[0].frames = 4;
840f9f848faSopenharmony_ci        cfg[0].flags.pipe_bof = 1;
841f9f848faSopenharmony_ci        if(type == UE_INTERRUPT){
842f9f848faSopenharmony_ci            cfg[0].flags.no_pipe_ok = 1;
843f9f848faSopenharmony_ci            cfg[0].bufsize = 0;
844f9f848faSopenharmony_ci            cfg[0].direction = UE_DIR_IN;
845f9f848faSopenharmony_ci        }
846f9f848faSopenharmony_ci        if(addr & UE_DIR_IN){
847f9f848faSopenharmony_ci            cfg[0].flags.short_xfer_ok = 1;
848f9f848faSopenharmony_ci        }else{
849f9f848faSopenharmony_ci            cfg[0].flags.force_short_xfer = 1;
850f9f848faSopenharmony_ci        }
851f9f848faSopenharmony_ci#endif
852f9f848faSopenharmony_ci		if (usbd_transfer_setup(dev, &uhe->bsd_iface_index,
853f9f848faSopenharmony_ci		    uhe->bsd_xfer, cfg, 1, uhe, &Gcall)) {
854f9f848faSopenharmony_ci			return (-EINVAL);
855f9f848faSopenharmony_ci		}
856f9f848faSopenharmony_ci	}
857f9f848faSopenharmony_ci	return (0);
858f9f848faSopenharmony_ci}
859f9f848faSopenharmony_ciint
860f9f848faSopenharmony_ciusb_setup_endpoint(struct usb_device *dev,
861f9f848faSopenharmony_ci    struct usb_host_endpoint *uhe, usb_size_t bufsize)
862f9f848faSopenharmony_ci{
863f9f848faSopenharmony_ci	return usb_setup_endpoint_agg(dev, uhe, bufsize, 0);
864f9f848faSopenharmony_ci}
865f9f848faSopenharmony_ci
866f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
867f9f848faSopenharmony_ci *	usb_linux_create_usb_device
868f9f848faSopenharmony_ci *
869f9f848faSopenharmony_ci * The following function is used to build up a per USB device
870f9f848faSopenharmony_ci * structure tree, that mimics the Linux one. The root structure
871f9f848faSopenharmony_ci * is returned by this function.
872f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
873f9f848faSopenharmony_cistatic int
874f9f848faSopenharmony_ciusb_linux_create_usb_device(struct usb_device *udev, device_t dev)
875f9f848faSopenharmony_ci{
876f9f848faSopenharmony_ci	struct usb_config_descriptor *cd = usbd_get_config_descriptor(udev);
877f9f848faSopenharmony_ci	struct usb_descriptor *desc;
878f9f848faSopenharmony_ci	struct usb_interface_descriptor *id;
879f9f848faSopenharmony_ci	struct usb_endpoint_descriptor *ed;
880f9f848faSopenharmony_ci	struct usb_interface *p_ui = NULL;
881f9f848faSopenharmony_ci	struct usb_host_interface *p_uhi = NULL;
882f9f848faSopenharmony_ci	struct usb_host_endpoint *p_uhe = NULL;
883f9f848faSopenharmony_ci	usb_size_t size;
884f9f848faSopenharmony_ci	uint16_t niface_total;
885f9f848faSopenharmony_ci	uint16_t nedesc;
886f9f848faSopenharmony_ci	uint16_t iface_no_curr;
887f9f848faSopenharmony_ci	uint16_t iface_index;
888f9f848faSopenharmony_ci	uint8_t pass;
889f9f848faSopenharmony_ci	uint8_t iface_no;
890f9f848faSopenharmony_ci
891f9f848faSopenharmony_ci	/*
892f9f848faSopenharmony_ci	 * We do two passes. One pass for computing necessary memory size
893f9f848faSopenharmony_ci	 * and one pass to initialize all the allocated memory structures.
894f9f848faSopenharmony_ci	 */
895f9f848faSopenharmony_ci	for (pass = 0; pass < 2; pass++) {
896f9f848faSopenharmony_ci		iface_no_curr = 0xFFFF;
897f9f848faSopenharmony_ci		niface_total = 0;
898f9f848faSopenharmony_ci		iface_index = 0;
899f9f848faSopenharmony_ci		nedesc = 0;
900f9f848faSopenharmony_ci		desc = NULL;
901f9f848faSopenharmony_ci
902f9f848faSopenharmony_ci		/*
903f9f848faSopenharmony_ci		 * Iterate over all the USB descriptors. Use the USB config
904f9f848faSopenharmony_ci		 * descriptor pointer provided by the FreeBSD USB stack.
905f9f848faSopenharmony_ci		 */
906f9f848faSopenharmony_ci		while ((desc = usb_desc_foreach(cd, desc))) {
907f9f848faSopenharmony_ci			/*
908f9f848faSopenharmony_ci			 * Build up a tree according to the descriptors we
909f9f848faSopenharmony_ci			 * find:
910f9f848faSopenharmony_ci			 */
911f9f848faSopenharmony_ci			switch (desc->bDescriptorType) {
912f9f848faSopenharmony_ci			case UDESC_DEVICE:
913f9f848faSopenharmony_ci				break;
914f9f848faSopenharmony_ci
915f9f848faSopenharmony_ci			case UDESC_ENDPOINT:
916f9f848faSopenharmony_ci				ed = (void *)desc;
917f9f848faSopenharmony_ci				if ((ed->bLength < sizeof(*ed)) ||
918f9f848faSopenharmony_ci				    (iface_index == 0))
919f9f848faSopenharmony_ci					break;
920f9f848faSopenharmony_ci				if (p_uhe != NULL) {
921f9f848faSopenharmony_ci					usb_bcopy(ed, &p_uhe->desc, sizeof(p_uhe->desc));
922f9f848faSopenharmony_ci					p_uhe->bsd_iface_index = iface_index - 1;
923f9f848faSopenharmony_ci					TAILQ_INIT(&p_uhe->bsd_urb_list);
924f9f848faSopenharmony_ci					p_uhe++;
925f9f848faSopenharmony_ci				}
926f9f848faSopenharmony_ci				if (p_uhi != NULL) {
927f9f848faSopenharmony_ci					(p_uhi - 1)->desc.bNumEndpoints++;
928f9f848faSopenharmony_ci				}
929f9f848faSopenharmony_ci				nedesc++;
930f9f848faSopenharmony_ci				break;
931f9f848faSopenharmony_ci
932f9f848faSopenharmony_ci			case UDESC_INTERFACE:
933f9f848faSopenharmony_ci				id = (void *)desc;
934f9f848faSopenharmony_ci				if (id->bLength < sizeof(*id))
935f9f848faSopenharmony_ci					break;
936f9f848faSopenharmony_ci				if (p_uhi != NULL) {
937f9f848faSopenharmony_ci					usb_bcopy(id, &p_uhi->desc, sizeof(p_uhi->desc));
938f9f848faSopenharmony_ci					p_uhi->desc.bNumEndpoints = 0;
939f9f848faSopenharmony_ci					p_uhi->endpoint = p_uhe;
940f9f848faSopenharmony_ci					p_uhi->string = "";
941f9f848faSopenharmony_ci					p_uhi->bsd_iface_index = iface_index;
942f9f848faSopenharmony_ci					p_uhi++;
943f9f848faSopenharmony_ci				}
944f9f848faSopenharmony_ci				iface_no = id->bInterfaceNumber;
945f9f848faSopenharmony_ci				niface_total++;
946f9f848faSopenharmony_ci				if (iface_no_curr != iface_no) {
947f9f848faSopenharmony_ci					if (p_ui) {
948f9f848faSopenharmony_ci						p_ui->altsetting = p_uhi - 1;
949f9f848faSopenharmony_ci						p_ui->cur_altsetting = p_uhi - 1;
950f9f848faSopenharmony_ci						p_ui->num_altsetting = 1;
951f9f848faSopenharmony_ci						p_ui->bsd_iface_index = iface_index;
952f9f848faSopenharmony_ci						p_ui->linux_udev = udev;
953f9f848faSopenharmony_ci						p_ui++;
954f9f848faSopenharmony_ci					}
955f9f848faSopenharmony_ci					iface_no_curr = iface_no;
956f9f848faSopenharmony_ci					iface_index++;
957f9f848faSopenharmony_ci				} else {
958f9f848faSopenharmony_ci					if (p_ui) {
959f9f848faSopenharmony_ci						(p_ui - 1)->num_altsetting++;
960f9f848faSopenharmony_ci					}
961f9f848faSopenharmony_ci				}
962f9f848faSopenharmony_ci				break;
963f9f848faSopenharmony_ci
964f9f848faSopenharmony_ci			default:
965f9f848faSopenharmony_ci				break;
966f9f848faSopenharmony_ci			}
967f9f848faSopenharmony_ci		}
968f9f848faSopenharmony_ci
969f9f848faSopenharmony_ci		if (pass == 0) {
970f9f848faSopenharmony_ci			size = (sizeof(*p_uhe) * nedesc) +
971f9f848faSopenharmony_ci			    (sizeof(*p_ui) * iface_index) +
972f9f848faSopenharmony_ci			    (sizeof(*p_uhi) * niface_total);
973f9f848faSopenharmony_ci
974f9f848faSopenharmony_ci			p_uhe = zalloc(size);
975f9f848faSopenharmony_ci			if (p_uhe == NULL) {
976f9f848faSopenharmony_ci				return (-1);
977f9f848faSopenharmony_ci			}
978f9f848faSopenharmony_ci			p_ui = (void *)(p_uhe + nedesc);
979f9f848faSopenharmony_ci			p_uhi = (void *)(p_ui + iface_index);
980f9f848faSopenharmony_ci
981f9f848faSopenharmony_ci			udev->linux_iface_start = p_ui;
982f9f848faSopenharmony_ci			udev->linux_iface_end = p_ui + iface_index;
983f9f848faSopenharmony_ci			udev->linux_endpoint_start = p_uhe;
984f9f848faSopenharmony_ci			udev->linux_endpoint_end = p_uhe + nedesc;
985f9f848faSopenharmony_ci			udev->devnum = device_get_unit(dev);
986f9f848faSopenharmony_ci			usb_bcopy(&udev->ddesc, &udev->descriptor,
987f9f848faSopenharmony_ci			    sizeof(udev->descriptor));
988f9f848faSopenharmony_ci			usb_bcopy(udev->ctrl_ep.edesc, &udev->ep0.desc,
989f9f848faSopenharmony_ci			    sizeof(udev->ep0.desc));
990f9f848faSopenharmony_ci		}
991f9f848faSopenharmony_ci	}
992f9f848faSopenharmony_ci	return (0);
993f9f848faSopenharmony_ci}
994f9f848faSopenharmony_ci
995f9f848faSopenharmony_ci#ifdef LOSCFG_DRIVERS_HDF_USB_DDK_HOST
996f9f848faSopenharmony_ciint usb_create_usb_device(struct usb_device *udev)
997f9f848faSopenharmony_ci{
998f9f848faSopenharmony_ci	struct usb_config_descriptor *cd = usbd_get_config_descriptor(udev);
999f9f848faSopenharmony_ci	struct usb_descriptor *desc;
1000f9f848faSopenharmony_ci	struct usb_interface_descriptor *id;
1001f9f848faSopenharmony_ci	struct usb_endpoint_descriptor *ed;
1002f9f848faSopenharmony_ci	struct usb_interface *p_ui = NULL;
1003f9f848faSopenharmony_ci	struct usb_host_interface *p_uhi = NULL;
1004f9f848faSopenharmony_ci	struct usb_host_endpoint *p_uhe = NULL;
1005f9f848faSopenharmony_ci	usb_size_t size;
1006f9f848faSopenharmony_ci	uint16_t niface_total;
1007f9f848faSopenharmony_ci	uint16_t nedesc;
1008f9f848faSopenharmony_ci	uint16_t iface_no_curr;
1009f9f848faSopenharmony_ci	uint16_t iface_index;
1010f9f848faSopenharmony_ci	uint8_t pass;
1011f9f848faSopenharmony_ci	uint8_t iface_no;
1012f9f848faSopenharmony_ci
1013f9f848faSopenharmony_ci	/*
1014f9f848faSopenharmony_ci	 * We do two passes. One pass for computing necessary memory size
1015f9f848faSopenharmony_ci	 * and one pass to initialize all the allocated memory structures.
1016f9f848faSopenharmony_ci	 */
1017f9f848faSopenharmony_ci	for (pass = 0; pass < 2; pass++) {
1018f9f848faSopenharmony_ci
1019f9f848faSopenharmony_ci		iface_no_curr = 0xFFFF;
1020f9f848faSopenharmony_ci		niface_total = 0;
1021f9f848faSopenharmony_ci		iface_index = 0;
1022f9f848faSopenharmony_ci		nedesc = 0;
1023f9f848faSopenharmony_ci		desc = NULL;
1024f9f848faSopenharmony_ci
1025f9f848faSopenharmony_ci		/*
1026f9f848faSopenharmony_ci		 * Iterate over all the USB descriptors. Use the USB config
1027f9f848faSopenharmony_ci		 * descriptor pointer provided by the FreeBSD USB stack.
1028f9f848faSopenharmony_ci		 */
1029f9f848faSopenharmony_ci		while ((desc = usb_desc_foreach(cd, desc))) {
1030f9f848faSopenharmony_ci			/*
1031f9f848faSopenharmony_ci			 * Build up a tree according to the descriptors we
1032f9f848faSopenharmony_ci			 * find:
1033f9f848faSopenharmony_ci			 */
1034f9f848faSopenharmony_ci			switch (desc->bDescriptorType) {
1035f9f848faSopenharmony_ci			case UDESC_DEVICE:
1036f9f848faSopenharmony_ci				break;
1037f9f848faSopenharmony_ci
1038f9f848faSopenharmony_ci			case UDESC_ENDPOINT:
1039f9f848faSopenharmony_ci				ed = (void *)desc;
1040f9f848faSopenharmony_ci				if ((ed->bLength < sizeof(*ed)) ||
1041f9f848faSopenharmony_ci				    (iface_index == 0))
1042f9f848faSopenharmony_ci					break;
1043f9f848faSopenharmony_ci				if (p_uhe != NULL) {
1044f9f848faSopenharmony_ci					usb_bcopy(ed, &p_uhe->desc, sizeof(p_uhe->desc));
1045f9f848faSopenharmony_ci					p_uhe->bsd_iface_index = iface_index - 1;
1046f9f848faSopenharmony_ci					TAILQ_INIT(&p_uhe->bsd_urb_list);
1047f9f848faSopenharmony_ci					p_uhe++;
1048f9f848faSopenharmony_ci				}
1049f9f848faSopenharmony_ci				if (p_uhi != NULL) {
1050f9f848faSopenharmony_ci					(p_uhi - 1)->desc.bNumEndpoints++;
1051f9f848faSopenharmony_ci				}
1052f9f848faSopenharmony_ci				nedesc++;
1053f9f848faSopenharmony_ci				break;
1054f9f848faSopenharmony_ci
1055f9f848faSopenharmony_ci			case UDESC_INTERFACE:
1056f9f848faSopenharmony_ci				id = (void *)desc;
1057f9f848faSopenharmony_ci				if (id->bLength < sizeof(*id))
1058f9f848faSopenharmony_ci					break;
1059f9f848faSopenharmony_ci				if (p_uhi != NULL) {
1060f9f848faSopenharmony_ci					usb_bcopy(id, &p_uhi->desc, sizeof(p_uhi->desc));
1061f9f848faSopenharmony_ci					p_uhi->desc.bNumEndpoints = 0;
1062f9f848faSopenharmony_ci					p_uhi->endpoint = p_uhe;
1063f9f848faSopenharmony_ci					p_uhi->string = "";
1064f9f848faSopenharmony_ci					p_uhi->bsd_iface_index = iface_index;
1065f9f848faSopenharmony_ci					p_uhi++;
1066f9f848faSopenharmony_ci				}
1067f9f848faSopenharmony_ci				iface_no = id->bInterfaceNumber;
1068f9f848faSopenharmony_ci				niface_total++;
1069f9f848faSopenharmony_ci				if (iface_no_curr != iface_no) {
1070f9f848faSopenharmony_ci					if (p_ui) {
1071f9f848faSopenharmony_ci						p_ui->altsetting = p_uhi - 1;
1072f9f848faSopenharmony_ci						p_ui->cur_altsetting = p_uhi - 1;
1073f9f848faSopenharmony_ci						p_ui->num_altsetting = 1;
1074f9f848faSopenharmony_ci						p_ui->bsd_iface_index = iface_index;
1075f9f848faSopenharmony_ci						p_ui->linux_udev = udev;
1076f9f848faSopenharmony_ci						p_ui++;
1077f9f848faSopenharmony_ci					}
1078f9f848faSopenharmony_ci					iface_no_curr = iface_no;
1079f9f848faSopenharmony_ci					iface_index++;
1080f9f848faSopenharmony_ci				} else {
1081f9f848faSopenharmony_ci					if (p_ui) {
1082f9f848faSopenharmony_ci						(p_ui - 1)->num_altsetting++;
1083f9f848faSopenharmony_ci					}
1084f9f848faSopenharmony_ci				}
1085f9f848faSopenharmony_ci				break;
1086f9f848faSopenharmony_ci
1087f9f848faSopenharmony_ci			default:
1088f9f848faSopenharmony_ci				break;
1089f9f848faSopenharmony_ci			}
1090f9f848faSopenharmony_ci		}
1091f9f848faSopenharmony_ci
1092f9f848faSopenharmony_ci		if (pass == 0) {
1093f9f848faSopenharmony_ci			size = (sizeof(*p_uhe) * nedesc) +
1094f9f848faSopenharmony_ci			    (sizeof(*p_ui) * iface_index) +
1095f9f848faSopenharmony_ci			    (sizeof(*p_uhi) * niface_total);
1096f9f848faSopenharmony_ci
1097f9f848faSopenharmony_ci			p_uhe = zalloc(size);
1098f9f848faSopenharmony_ci			if (p_uhe == NULL) {
1099f9f848faSopenharmony_ci				return (-1);
1100f9f848faSopenharmony_ci			}
1101f9f848faSopenharmony_ci			p_ui = (void *)(p_uhe + nedesc);
1102f9f848faSopenharmony_ci			p_uhi = (void *)(p_ui + iface_index);
1103f9f848faSopenharmony_ci
1104f9f848faSopenharmony_ci			udev->linux_iface_start = p_ui;
1105f9f848faSopenharmony_ci			udev->linux_iface_end = p_ui + iface_index;
1106f9f848faSopenharmony_ci			udev->linux_endpoint_start = p_uhe;
1107f9f848faSopenharmony_ci			udev->linux_endpoint_end = p_uhe + nedesc;
1108f9f848faSopenharmony_ci			usb_bcopy(&udev->ddesc, &udev->descriptor,
1109f9f848faSopenharmony_ci			    sizeof(udev->descriptor));
1110f9f848faSopenharmony_ci			usb_bcopy(udev->ctrl_ep.edesc, &udev->ep0.desc,
1111f9f848faSopenharmony_ci			    sizeof(udev->ep0.desc));
1112f9f848faSopenharmony_ci		}
1113f9f848faSopenharmony_ci	}
1114f9f848faSopenharmony_ci	return (0);
1115f9f848faSopenharmony_ci}
1116f9f848faSopenharmony_ci#endif
1117f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1118f9f848faSopenharmony_ci *	usb_alloc_urb
1119f9f848faSopenharmony_ci *
1120f9f848faSopenharmony_ci * This function should always be used when you allocate an URB for
1121f9f848faSopenharmony_ci * use with the USB Linux stack. In case of an isochronous transfer
1122f9f848faSopenharmony_ci * you must specifiy the maximum number of "iso_packets" which you
1123f9f848faSopenharmony_ci * plan to transfer per URB. This function is always blocking, and
1124f9f848faSopenharmony_ci * "mem_flags" are not regarded like on Linux.
1125f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1126f9f848faSopenharmony_cistruct urb *
1127f9f848faSopenharmony_ciusb_alloc_urb(uint16_t iso_packets, uint16_t mem_flags)
1128f9f848faSopenharmony_ci{
1129f9f848faSopenharmony_ci	struct urb *urb;
1130f9f848faSopenharmony_ci	usb_size_t size;
1131f9f848faSopenharmony_ci
1132f9f848faSopenharmony_ci	if (iso_packets == 0xFFFF) {
1133f9f848faSopenharmony_ci		/*
1134f9f848faSopenharmony_ci		 * FreeBSD specific magic value to ask for control transfer
1135f9f848faSopenharmony_ci		 * memory allocation:
1136f9f848faSopenharmony_ci		 */
1137f9f848faSopenharmony_ci		size = sizeof(*urb) + sizeof(struct usb_device_request) + mem_flags;
1138f9f848faSopenharmony_ci	} else {
1139f9f848faSopenharmony_ci		size = sizeof(*urb) + (iso_packets * sizeof(urb->iso_frame_desc[0]));
1140f9f848faSopenharmony_ci	}
1141f9f848faSopenharmony_ci
1142f9f848faSopenharmony_ci	urb = (struct urb *)zalloc(size);
1143f9f848faSopenharmony_ci	if (urb) {
1144f9f848faSopenharmony_ci		cv_init(&urb->cv_wait, "URBWAIT");
1145f9f848faSopenharmony_ci		if (iso_packets == 0xFFFF) {
1146f9f848faSopenharmony_ci			urb->setup_packet = (void *)(urb + 1);
1147f9f848faSopenharmony_ci			urb->transfer_buffer = (void *)(urb->setup_packet +
1148f9f848faSopenharmony_ci			    sizeof(struct usb_device_request));
1149f9f848faSopenharmony_ci		} else {
1150f9f848faSopenharmony_ci			urb->number_of_packets = iso_packets;
1151f9f848faSopenharmony_ci		}
1152f9f848faSopenharmony_ci	} else {
1153f9f848faSopenharmony_ci		dprintf("Malloc failed in %s %d\n", __FUNCTION__, __LINE__);
1154f9f848faSopenharmony_ci	}
1155f9f848faSopenharmony_ci
1156f9f848faSopenharmony_ci	return (urb);
1157f9f848faSopenharmony_ci}
1158f9f848faSopenharmony_ci
1159f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1160f9f848faSopenharmony_ci *	usb_find_host_endpoint
1161f9f848faSopenharmony_ci *
1162f9f848faSopenharmony_ci * The following function will return the Linux USB host endpoint
1163f9f848faSopenharmony_ci * structure that matches the given endpoint type and endpoint
1164f9f848faSopenharmony_ci * value. If no match is found, NULL is returned. This function is not
1165f9f848faSopenharmony_ci * part of the Linux USB API and is only used internally.
1166f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1167f9f848faSopenharmony_cistruct usb_host_endpoint *
1168f9f848faSopenharmony_ciusb_find_host_endpoint(struct usb_device *dev, uint8_t type, uint8_t ep)
1169f9f848faSopenharmony_ci{
1170f9f848faSopenharmony_ci	struct usb_host_endpoint *uhe;
1171f9f848faSopenharmony_ci	struct usb_host_endpoint *uhe_end;
1172f9f848faSopenharmony_ci	struct usb_host_interface *uhi;
1173f9f848faSopenharmony_ci	struct usb_interface *ui;
1174f9f848faSopenharmony_ci	uint8_t ea;
1175f9f848faSopenharmony_ci	uint8_t at;
1176f9f848faSopenharmony_ci	uint8_t mask;
1177f9f848faSopenharmony_ci
1178f9f848faSopenharmony_ci	if (dev == NULL) {
1179f9f848faSopenharmony_ci		return (NULL);
1180f9f848faSopenharmony_ci	}
1181f9f848faSopenharmony_ci	if (type == UE_CONTROL) {
1182f9f848faSopenharmony_ci		mask = UE_ADDR;
1183f9f848faSopenharmony_ci	} else {
1184f9f848faSopenharmony_ci		mask = (UE_DIR_IN | UE_DIR_OUT | UE_ADDR);
1185f9f848faSopenharmony_ci	}
1186f9f848faSopenharmony_ci
1187f9f848faSopenharmony_ci	ep &= mask;
1188f9f848faSopenharmony_ci
1189f9f848faSopenharmony_ci	/*
1190f9f848faSopenharmony_ci	 * Iterate over all the interfaces searching the selected alternate
1191f9f848faSopenharmony_ci	 * setting only, and all belonging endpoints.
1192f9f848faSopenharmony_ci	 */
1193f9f848faSopenharmony_ci	for (ui = dev->linux_iface_start;
1194f9f848faSopenharmony_ci	    ui != dev->linux_iface_end;
1195f9f848faSopenharmony_ci	    ui++) {
1196f9f848faSopenharmony_ci		uhi = ui->cur_altsetting;
1197f9f848faSopenharmony_ci		if (uhi) {
1198f9f848faSopenharmony_ci			uhe_end = uhi->endpoint + uhi->desc.bNumEndpoints;
1199f9f848faSopenharmony_ci			for (uhe = uhi->endpoint;
1200f9f848faSopenharmony_ci			    uhe != uhe_end;
1201f9f848faSopenharmony_ci			    uhe++) {
1202f9f848faSopenharmony_ci				ea = uhe->desc.bEndpointAddress;
1203f9f848faSopenharmony_ci				at = uhe->desc.bmAttributes;
1204f9f848faSopenharmony_ci
1205f9f848faSopenharmony_ci				if (((ea & mask) == ep) &&
1206f9f848faSopenharmony_ci				    ((at & UE_XFERTYPE) == type)) {
1207f9f848faSopenharmony_ci					return (uhe);
1208f9f848faSopenharmony_ci				}
1209f9f848faSopenharmony_ci			}
1210f9f848faSopenharmony_ci		}
1211f9f848faSopenharmony_ci	}
1212f9f848faSopenharmony_ci
1213f9f848faSopenharmony_ci	if ((type == UE_CONTROL) && ((ep & UE_ADDR) == 0)) {
1214f9f848faSopenharmony_ci		return (&dev->ep0);
1215f9f848faSopenharmony_ci	}
1216f9f848faSopenharmony_ci	return (NULL);
1217f9f848faSopenharmony_ci}
1218f9f848faSopenharmony_ci
1219f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1220f9f848faSopenharmony_ci *	usb_altnum_to_altsetting
1221f9f848faSopenharmony_ci *
1222f9f848faSopenharmony_ci * The following function returns a pointer to an alternate setting by
1223f9f848faSopenharmony_ci * index given a "usb_interface" pointer. If the alternate setting by
1224f9f848faSopenharmony_ci * index does not exist, NULL is returned. And alternate setting is a
1225f9f848faSopenharmony_ci * variant of an interface, but usually with slightly different
1226f9f848faSopenharmony_ci * characteristics.
1227f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1228f9f848faSopenharmony_cistruct usb_host_interface *
1229f9f848faSopenharmony_ciusb_altnum_to_altsetting(const struct usb_interface *intf, uint8_t alt_index)
1230f9f848faSopenharmony_ci{
1231f9f848faSopenharmony_ci	if (alt_index >= intf->num_altsetting) {
1232f9f848faSopenharmony_ci		return (NULL);
1233f9f848faSopenharmony_ci	}
1234f9f848faSopenharmony_ci	return (intf->altsetting + alt_index);
1235f9f848faSopenharmony_ci}
1236f9f848faSopenharmony_ci
1237f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1238f9f848faSopenharmony_ci *	usb_ifnum_to_if
1239f9f848faSopenharmony_ci *
1240f9f848faSopenharmony_ci * The following function searches up an USB interface by
1241f9f848faSopenharmony_ci * "bInterfaceNumber". If no match is found, NULL is returned.
1242f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1243f9f848faSopenharmony_cistruct usb_interface *
1244f9f848faSopenharmony_ciusb_ifnum_to_if(struct usb_device *dev, uint8_t iface_no)
1245f9f848faSopenharmony_ci{
1246f9f848faSopenharmony_ci	struct usb_interface *p_ui;
1247f9f848faSopenharmony_ci
1248f9f848faSopenharmony_ci	for (p_ui = dev->linux_iface_start;
1249f9f848faSopenharmony_ci	    p_ui != dev->linux_iface_end;
1250f9f848faSopenharmony_ci	    p_ui++) {
1251f9f848faSopenharmony_ci		if ((p_ui->num_altsetting > 0) &&
1252f9f848faSopenharmony_ci		    (p_ui->altsetting->desc.bInterfaceNumber == iface_no)) {
1253f9f848faSopenharmony_ci			return (p_ui);
1254f9f848faSopenharmony_ci		}
1255f9f848faSopenharmony_ci	}
1256f9f848faSopenharmony_ci	return (NULL);
1257f9f848faSopenharmony_ci}
1258f9f848faSopenharmony_ci
1259f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1260f9f848faSopenharmony_ci *	usb_buffer_alloc
1261f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1262f9f848faSopenharmony_civoid   *
1263f9f848faSopenharmony_ciusb_buffer_alloc(struct usb_device *dev, usb_size_t size, uint16_t mem_flags, uint8_t *dma_addr)
1264f9f848faSopenharmony_ci{
1265f9f848faSopenharmony_ci	return (zalloc(size));
1266f9f848faSopenharmony_ci}
1267f9f848faSopenharmony_ci
1268f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1269f9f848faSopenharmony_ci *	usb_get_intfdata
1270f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1271f9f848faSopenharmony_civoid   *
1272f9f848faSopenharmony_ciusb_get_intfdata(struct usb_interface *intf)
1273f9f848faSopenharmony_ci{
1274f9f848faSopenharmony_ci	return (intf->bsd_priv_sc);
1275f9f848faSopenharmony_ci}
1276f9f848faSopenharmony_ci
1277f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1278f9f848faSopenharmony_ci *	usb_linux_register
1279f9f848faSopenharmony_ci *
1280f9f848faSopenharmony_ci * The following function is used by the "USB_DRIVER_EXPORT()" macro,
1281f9f848faSopenharmony_ci * and is used to register a Linux USB driver, so that its
1282f9f848faSopenharmony_ci * "usb_device_id" structures gets searched a probe time. This
1283f9f848faSopenharmony_ci * function is not part of the Linux USB API, and is for internal use
1284f9f848faSopenharmony_ci * only.
1285f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1286f9f848faSopenharmony_civoid
1287f9f848faSopenharmony_ciusb_linux_register(void *arg)
1288f9f848faSopenharmony_ci{
1289f9f848faSopenharmony_ci	struct usb_driver *drv = arg;
1290f9f848faSopenharmony_ci
1291f9f848faSopenharmony_ci	mtx_lock(&Giant);
1292f9f848faSopenharmony_ci	LIST_INSERT_HEAD(&usb_linux_driver_list, drv, linux_driver_list);
1293f9f848faSopenharmony_ci	mtx_unlock(&Giant);
1294f9f848faSopenharmony_ci
1295f9f848faSopenharmony_ci	usb_needs_explore_all();
1296f9f848faSopenharmony_ci}
1297f9f848faSopenharmony_ci
1298f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1299f9f848faSopenharmony_ci *	usb_linux_deregister
1300f9f848faSopenharmony_ci *
1301f9f848faSopenharmony_ci * The following function is used by the "USB_DRIVER_EXPORT()" macro,
1302f9f848faSopenharmony_ci * and is used to deregister a Linux USB driver. This function will
1303f9f848faSopenharmony_ci * ensure that all driver instances belonging to the Linux USB device
1304f9f848faSopenharmony_ci * driver in question, gets detached before the driver is
1305f9f848faSopenharmony_ci * unloaded. This function is not part of the Linux USB API, and is
1306f9f848faSopenharmony_ci * for internal use only.
1307f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1308f9f848faSopenharmony_civoid
1309f9f848faSopenharmony_ciusb_linux_deregister(void *arg)
1310f9f848faSopenharmony_ci{
1311f9f848faSopenharmony_ci	struct usb_driver *drv = arg;
1312f9f848faSopenharmony_ci	struct usb_linux_softc *sc;
1313f9f848faSopenharmony_ci
1314f9f848faSopenharmony_cirepeat:
1315f9f848faSopenharmony_ci	mtx_lock(&Giant);
1316f9f848faSopenharmony_ci	LIST_FOREACH(sc, &usb_linux_attached_list, sc_attached_list) {
1317f9f848faSopenharmony_ci		if (sc->sc_udrv == drv) {
1318f9f848faSopenharmony_ci			mtx_unlock(&Giant);
1319f9f848faSopenharmony_ci			(void)device_detach(sc->sc_fbsd_dev);
1320f9f848faSopenharmony_ci			goto repeat;
1321f9f848faSopenharmony_ci		}
1322f9f848faSopenharmony_ci	}
1323f9f848faSopenharmony_ci	LIST_REMOVE(drv, linux_driver_list);
1324f9f848faSopenharmony_ci	mtx_unlock(&Giant);
1325f9f848faSopenharmony_ci}
1326f9f848faSopenharmony_ci
1327f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1328f9f848faSopenharmony_ci *	usb_linux_free_device
1329f9f848faSopenharmony_ci *
1330f9f848faSopenharmony_ci * The following function is only used by the FreeBSD USB stack, to
1331f9f848faSopenharmony_ci * cleanup and free memory after that a Linux USB device was attached.
1332f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1333f9f848faSopenharmony_civoid
1334f9f848faSopenharmony_ciusb_linux_free_device(struct usb_device *dev)
1335f9f848faSopenharmony_ci{
1336f9f848faSopenharmony_ci	struct usb_host_endpoint *uhe;
1337f9f848faSopenharmony_ci	struct usb_host_endpoint *uhe_end;
1338f9f848faSopenharmony_ci	int err;
1339f9f848faSopenharmony_ci
1340f9f848faSopenharmony_ci	uhe = dev->linux_endpoint_start;
1341f9f848faSopenharmony_ci	uhe_end = dev->linux_endpoint_end;
1342f9f848faSopenharmony_ci	while (uhe != uhe_end) {
1343f9f848faSopenharmony_ci		err = usb_setup_endpoint(dev, uhe, 0);
1344f9f848faSopenharmony_ci		if (err != 0)
1345f9f848faSopenharmony_ci			DPRINTF("Error in %s, %d\n", __FUNCTION__, __LINE__);
1346f9f848faSopenharmony_ci		uhe++;
1347f9f848faSopenharmony_ci	}
1348f9f848faSopenharmony_ci	err = usb_setup_endpoint(dev, &dev->ep0, 0);
1349f9f848faSopenharmony_ci	if (err != 0)
1350f9f848faSopenharmony_ci		DPRINTF("Error in %s, %d\n", __FUNCTION__, __LINE__);
1351f9f848faSopenharmony_ci	free(dev->linux_endpoint_start);
1352f9f848faSopenharmony_ci	dev->linux_endpoint_start = NULL;
1353f9f848faSopenharmony_ci}
1354f9f848faSopenharmony_ci
1355f9f848faSopenharmony_ci
1356f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1357f9f848faSopenharmony_ci *	usb_buffer_free
1358f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1359f9f848faSopenharmony_civoid
1360f9f848faSopenharmony_ciusb_buffer_free(struct usb_device *dev, usb_size_t size,
1361f9f848faSopenharmony_ci    void *addr, uint8_t dma_addr)
1362f9f848faSopenharmony_ci{
1363f9f848faSopenharmony_ci	free(addr);
1364f9f848faSopenharmony_ci}
1365f9f848faSopenharmony_ci
1366f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1367f9f848faSopenharmony_ci *	usb_free_urb
1368f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1369f9f848faSopenharmony_civoid
1370f9f848faSopenharmony_ciusb_free_urb(struct urb *urb)
1371f9f848faSopenharmony_ci{
1372f9f848faSopenharmony_ci	if (urb == NULL) {
1373f9f848faSopenharmony_ci		return;
1374f9f848faSopenharmony_ci	}
1375f9f848faSopenharmony_ci	/* make sure that the current URB is not active */
1376f9f848faSopenharmony_ci	usb_kill_urb(urb);
1377f9f848faSopenharmony_ci
1378f9f848faSopenharmony_ci	/* destroy condition variable */
1379f9f848faSopenharmony_ci	cv_destroy(&urb->cv_wait);
1380f9f848faSopenharmony_ci
1381f9f848faSopenharmony_ci	/* just free it */
1382f9f848faSopenharmony_ci	free(urb);
1383f9f848faSopenharmony_ci}
1384f9f848faSopenharmony_ci
1385f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1386f9f848faSopenharmony_ci *	usb_init_urb
1387f9f848faSopenharmony_ci *
1388f9f848faSopenharmony_ci * The following function can be used to initialize a custom URB. It
1389f9f848faSopenharmony_ci * is not recommended to use this function. Use "usb_alloc_urb()"
1390f9f848faSopenharmony_ci * instead.
1391f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1392f9f848faSopenharmony_civoid
1393f9f848faSopenharmony_ciusb_init_urb(struct urb *urb)
1394f9f848faSopenharmony_ci{
1395f9f848faSopenharmony_ci	if (urb == NULL) {
1396f9f848faSopenharmony_ci		return;
1397f9f848faSopenharmony_ci	}
1398f9f848faSopenharmony_ci	(void)memset_s(urb, sizeof(*urb), 0, sizeof(*urb));
1399f9f848faSopenharmony_ci}
1400f9f848faSopenharmony_ci
1401f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1402f9f848faSopenharmony_ci *	usb_kill_urb
1403f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1404f9f848faSopenharmony_civoid
1405f9f848faSopenharmony_ciusb_kill_urb(struct urb *urb)
1406f9f848faSopenharmony_ci{
1407f9f848faSopenharmony_ci	(void)usb_unlink_urb_sub(urb, 1);
1408f9f848faSopenharmony_ci}
1409f9f848faSopenharmony_ci
1410f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1411f9f848faSopenharmony_ci *	usb_set_intfdata
1412f9f848faSopenharmony_ci *
1413f9f848faSopenharmony_ci * The following function sets the per Linux USB interface private
1414f9f848faSopenharmony_ci * data pointer. It is used by most Linux USB device drivers.
1415f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1416f9f848faSopenharmony_civoid
1417f9f848faSopenharmony_ciusb_set_intfdata(struct usb_interface *intf, void *data)
1418f9f848faSopenharmony_ci{
1419f9f848faSopenharmony_ci	intf->bsd_priv_sc = data;
1420f9f848faSopenharmony_ci}
1421f9f848faSopenharmony_ci
1422f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1423f9f848faSopenharmony_ci *	usb_linux_cleanup_interface
1424f9f848faSopenharmony_ci *
1425f9f848faSopenharmony_ci * The following function will release all FreeBSD USB transfers
1426f9f848faSopenharmony_ci * associated with a Linux USB interface. It is for internal use only.
1427f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1428f9f848faSopenharmony_cistatic void
1429f9f848faSopenharmony_ciusb_linux_cleanup_interface(struct usb_device *dev, struct usb_interface *iface)
1430f9f848faSopenharmony_ci{
1431f9f848faSopenharmony_ci	struct usb_host_interface *uhi;
1432f9f848faSopenharmony_ci	struct usb_host_interface *uhi_end;
1433f9f848faSopenharmony_ci	struct usb_host_endpoint *uhe;
1434f9f848faSopenharmony_ci	struct usb_host_endpoint *uhe_end;
1435f9f848faSopenharmony_ci	int err;
1436f9f848faSopenharmony_ci
1437f9f848faSopenharmony_ci	uhi = iface->altsetting;
1438f9f848faSopenharmony_ci	uhi_end = iface->altsetting + iface->num_altsetting;
1439f9f848faSopenharmony_ci	while (uhi != uhi_end) {
1440f9f848faSopenharmony_ci		uhe = uhi->endpoint;
1441f9f848faSopenharmony_ci		uhe_end = uhi->endpoint + uhi->desc.bNumEndpoints;
1442f9f848faSopenharmony_ci		while (uhe != uhe_end) {
1443f9f848faSopenharmony_ci			err = usb_setup_endpoint(dev, uhe, 0);
1444f9f848faSopenharmony_ci			if (err != 0)
1445f9f848faSopenharmony_ci				DPRINTF("Error in %s, %d\n", __FUNCTION__, __LINE__);
1446f9f848faSopenharmony_ci			uhe++;
1447f9f848faSopenharmony_ci		}
1448f9f848faSopenharmony_ci		uhi++;
1449f9f848faSopenharmony_ci	}
1450f9f848faSopenharmony_ci}
1451f9f848faSopenharmony_ci
1452f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1453f9f848faSopenharmony_ci *	usb_linux_wait_complete
1454f9f848faSopenharmony_ci *
1455f9f848faSopenharmony_ci * The following function is used by "usb_start_wait_urb()" to wake it
1456f9f848faSopenharmony_ci * up, when an USB transfer has finished.
1457f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1458f9f848faSopenharmony_cistatic void
1459f9f848faSopenharmony_ciusb_linux_wait_complete(struct urb *urb)
1460f9f848faSopenharmony_ci{
1461f9f848faSopenharmony_ci	if (urb->transfer_flags & URB_IS_SLEEPING) {
1462f9f848faSopenharmony_ci		(void)cv_signal(&urb->cv_wait);
1463f9f848faSopenharmony_ci	}
1464f9f848faSopenharmony_ci	urb->transfer_flags &= ~URB_WAIT_WAKEUP;
1465f9f848faSopenharmony_ci}
1466f9f848faSopenharmony_ci
1467f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1468f9f848faSopenharmony_ci *	usb_linux_complete
1469f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1470f9f848faSopenharmony_cistatic void
1471f9f848faSopenharmony_ciusb_linux_complete(struct usb_xfer *xfer)
1472f9f848faSopenharmony_ci{
1473f9f848faSopenharmony_ci	struct urb *urb;
1474f9f848faSopenharmony_ci
1475f9f848faSopenharmony_ci	urb = usbd_xfer_get_priv(xfer);
1476f9f848faSopenharmony_ci	usbd_xfer_set_priv(xfer, NULL);
1477f9f848faSopenharmony_ci
1478f9f848faSopenharmony_ci	if (urb->endpoint->desc.bEndpointAddress & UE_DIR_IN) {
1479f9f848faSopenharmony_ci		usb_dma_cache_invalid(urb->transfer_buffer,urb->actual_length);
1480f9f848faSopenharmony_ci	}
1481f9f848faSopenharmony_ci
1482f9f848faSopenharmony_ci	if (urb->complete) {
1483f9f848faSopenharmony_ci		(urb->complete) (urb);
1484f9f848faSopenharmony_ci	}
1485f9f848faSopenharmony_ci}
1486f9f848faSopenharmony_ci
1487f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1488f9f848faSopenharmony_ci *	usb_linux_isoc_callback
1489f9f848faSopenharmony_ci *
1490f9f848faSopenharmony_ci * The following is the FreeBSD isochronous USB callback. Isochronous
1491f9f848faSopenharmony_ci * frames are USB packets transferred 1000 or 8000 times per second,
1492f9f848faSopenharmony_ci * depending on whether a full- or high- speed USB transfer is
1493f9f848faSopenharmony_ci * used.
1494f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1495f9f848faSopenharmony_cistatic void
1496f9f848faSopenharmony_ciusb_linux_isoc_callback(struct usb_xfer *xfer, usb_error_t error)
1497f9f848faSopenharmony_ci{
1498f9f848faSopenharmony_ci	usb_frlength_t max_frame = xfer->max_frame_size;
1499f9f848faSopenharmony_ci	usb_frlength_t offset;
1500f9f848faSopenharmony_ci	usb_frcount_t x;
1501f9f848faSopenharmony_ci	struct urb *urb = usbd_xfer_get_priv(xfer);
1502f9f848faSopenharmony_ci	struct usb_host_endpoint *uhe = usbd_xfer_softc(xfer);
1503f9f848faSopenharmony_ci	struct usb_iso_packet_descriptor *uipd;
1504f9f848faSopenharmony_ci	UINTPTR flags;
1505f9f848faSopenharmony_ci
1506f9f848faSopenharmony_ci	DPRINTF("\n");
1507f9f848faSopenharmony_ci
1508f9f848faSopenharmony_ci	switch (USB_GET_STATE(xfer)) {
1509f9f848faSopenharmony_ci	case USB_ST_TRANSFERRED:
1510f9f848faSopenharmony_ci
1511f9f848faSopenharmony_ci		if (urb->bsd_isread) {
1512f9f848faSopenharmony_ci			/* copy in data with regard to the URB */
1513f9f848faSopenharmony_ci
1514f9f848faSopenharmony_ci			offset = 0;
1515f9f848faSopenharmony_ci
1516f9f848faSopenharmony_ci			for (x = 0; x < urb->number_of_packets; x++) {
1517f9f848faSopenharmony_ci				uipd = urb->iso_frame_desc + x;
1518f9f848faSopenharmony_ci				if (uipd->length > xfer->frlengths[x]) {
1519f9f848faSopenharmony_ci					if (urb->transfer_flags & URB_SHORT_NOT_OK) {
1520f9f848faSopenharmony_ci						/* XXX should be EREMOTEIO */
1521f9f848faSopenharmony_ci						uipd->status = -EPIPE;
1522f9f848faSopenharmony_ci					} else {
1523f9f848faSopenharmony_ci						uipd->status = 0;
1524f9f848faSopenharmony_ci					}
1525f9f848faSopenharmony_ci				} else {
1526f9f848faSopenharmony_ci					uipd->status = 0;
1527f9f848faSopenharmony_ci				}
1528f9f848faSopenharmony_ci				uipd->actual_length = xfer->frlengths[x];
1529f9f848faSopenharmony_ci				if (!xfer->flags.ext_buffer) {
1530f9f848faSopenharmony_ci					usbd_copy_out(xfer->frbuffers, offset,
1531f9f848faSopenharmony_ci					    USB_ADD_BYTES(urb->transfer_buffer,
1532f9f848faSopenharmony_ci					    uipd->offset), uipd->actual_length);
1533f9f848faSopenharmony_ci				}
1534f9f848faSopenharmony_ci				offset += max_frame;
1535f9f848faSopenharmony_ci			}
1536f9f848faSopenharmony_ci		} else {
1537f9f848faSopenharmony_ci			for (x = 0; x < urb->number_of_packets; x++) {
1538f9f848faSopenharmony_ci				uipd = urb->iso_frame_desc + x;
1539f9f848faSopenharmony_ci				uipd->actual_length = xfer->frlengths[x];
1540f9f848faSopenharmony_ci				uipd->status = 0;
1541f9f848faSopenharmony_ci			}
1542f9f848faSopenharmony_ci		}
1543f9f848faSopenharmony_ci
1544f9f848faSopenharmony_ci		urb->actual_length = xfer->actlen;
1545f9f848faSopenharmony_ci
1546f9f848faSopenharmony_ci		/* check for short transfer */
1547f9f848faSopenharmony_ci		if (xfer->actlen < xfer->sumlen) {
1548f9f848faSopenharmony_ci			/* short transfer */
1549f9f848faSopenharmony_ci			if (urb->transfer_flags & URB_SHORT_NOT_OK) {
1550f9f848faSopenharmony_ci				/* XXX should be EREMOTEIO */
1551f9f848faSopenharmony_ci				urb->status = -EPIPE;
1552f9f848faSopenharmony_ci			} else {
1553f9f848faSopenharmony_ci				urb->status = 0;
1554f9f848faSopenharmony_ci			}
1555f9f848faSopenharmony_ci		} else {
1556f9f848faSopenharmony_ci			/* success */
1557f9f848faSopenharmony_ci			urb->status = 0;
1558f9f848faSopenharmony_ci		}
1559f9f848faSopenharmony_ci
1560f9f848faSopenharmony_ci		/* call callback */
1561f9f848faSopenharmony_ci		usb_linux_complete(xfer);
1562f9f848faSopenharmony_ci
1563f9f848faSopenharmony_ci	case USB_ST_SETUP:
1564f9f848faSopenharmony_citr_setup:
1565f9f848faSopenharmony_ci
1566f9f848faSopenharmony_ci		if (xfer->priv_fifo == NULL) {
1567f9f848faSopenharmony_ci			LOS_SpinLockSave(&g_usb_urb_list_spinlock, &flags);
1568f9f848faSopenharmony_ci			/* get next transfer */
1569f9f848faSopenharmony_ci			urb = TAILQ_FIRST(&uhe->bsd_urb_list);
1570f9f848faSopenharmony_ci			if (urb == NULL) {
1571f9f848faSopenharmony_ci				/* nothing to do */
1572f9f848faSopenharmony_ci				LOS_SpinUnlockRestore(&g_usb_urb_list_spinlock, flags);
1573f9f848faSopenharmony_ci				return;
1574f9f848faSopenharmony_ci			}
1575f9f848faSopenharmony_ci			TAILQ_REMOVE(&uhe->bsd_urb_list, urb, bsd_urb_list);
1576f9f848faSopenharmony_ci			urb->bsd_urb_list.tqe_prev = NULL;
1577f9f848faSopenharmony_ci			LOS_SpinUnlockRestore(&g_usb_urb_list_spinlock, flags);
1578f9f848faSopenharmony_ci
1579f9f848faSopenharmony_ci			x = xfer->max_frame_count;
1580f9f848faSopenharmony_ci			if (urb->number_of_packets > x) {
1581f9f848faSopenharmony_ci				/* XXX simply truncate the transfer */
1582f9f848faSopenharmony_ci				urb->number_of_packets = x;
1583f9f848faSopenharmony_ci			}
1584f9f848faSopenharmony_ci		} else {
1585f9f848faSopenharmony_ci			DPRINTF("Already got a transfer\n");
1586f9f848faSopenharmony_ci
1587f9f848faSopenharmony_ci			/* already got a transfer (should not happen) */
1588f9f848faSopenharmony_ci			urb = usbd_xfer_get_priv(xfer);
1589f9f848faSopenharmony_ci		}
1590f9f848faSopenharmony_ci
1591f9f848faSopenharmony_ci		urb->bsd_isread = (uhe->desc.bEndpointAddress & UE_DIR_IN) ? 1 : 0;
1592f9f848faSopenharmony_ci
1593f9f848faSopenharmony_ci		if (xfer->flags.ext_buffer) {
1594f9f848faSopenharmony_ci			/* set virtual address to load */
1595f9f848faSopenharmony_ci			usbd_xfer_set_frame_data(xfer, 0, urb->transfer_buffer, 0);
1596f9f848faSopenharmony_ci		}
1597f9f848faSopenharmony_ci		if (!(urb->bsd_isread)) {
1598f9f848faSopenharmony_ci			/* copy out data with regard to the URB */
1599f9f848faSopenharmony_ci
1600f9f848faSopenharmony_ci			offset = 0;
1601f9f848faSopenharmony_ci
1602f9f848faSopenharmony_ci			for (x = 0; x < urb->number_of_packets; x++) {
1603f9f848faSopenharmony_ci				uipd = urb->iso_frame_desc + x;
1604f9f848faSopenharmony_ci				usbd_xfer_set_frame_len(xfer, x, uipd->length);
1605f9f848faSopenharmony_ci				if (!xfer->flags.ext_buffer) {
1606f9f848faSopenharmony_ci					usbd_copy_in(xfer->frbuffers, offset,
1607f9f848faSopenharmony_ci					    USB_ADD_BYTES(urb->transfer_buffer,
1608f9f848faSopenharmony_ci					    uipd->offset), uipd->length);
1609f9f848faSopenharmony_ci				}
1610f9f848faSopenharmony_ci				offset += uipd->length;
1611f9f848faSopenharmony_ci			}
1612f9f848faSopenharmony_ci		} else {
1613f9f848faSopenharmony_ci			/* setup "frlengths" array */
1614f9f848faSopenharmony_ci
1615f9f848faSopenharmony_ci			for (x = 0; x < urb->number_of_packets; x++) {
1616f9f848faSopenharmony_ci				usbd_xfer_set_frame_len(xfer, x, max_frame);
1617f9f848faSopenharmony_ci			}
1618f9f848faSopenharmony_ci		}
1619f9f848faSopenharmony_ci		usbd_xfer_set_priv(xfer, urb);
1620f9f848faSopenharmony_ci		xfer->flags.force_short_xfer = 0;
1621f9f848faSopenharmony_ci		xfer->timeout = urb->timeout;
1622f9f848faSopenharmony_ci		xfer->nframes = urb->number_of_packets;
1623f9f848faSopenharmony_ci		usbd_transfer_submit(xfer);
1624f9f848faSopenharmony_ci		return;
1625f9f848faSopenharmony_ci
1626f9f848faSopenharmony_ci	default:			/* Error */
1627f9f848faSopenharmony_ci		if (xfer->error == USB_ERR_CANCELLED) {
1628f9f848faSopenharmony_ci			urb->status = -ECONNRESET;
1629f9f848faSopenharmony_ci		} else {
1630f9f848faSopenharmony_ci			urb->status = -EPIPE;	/* stalled */
1631f9f848faSopenharmony_ci		}
1632f9f848faSopenharmony_ci
1633f9f848faSopenharmony_ci		/* Set zero for "actual_length" */
1634f9f848faSopenharmony_ci		urb->actual_length = 0;
1635f9f848faSopenharmony_ci
1636f9f848faSopenharmony_ci		/* Set zero for "actual_length" */
1637f9f848faSopenharmony_ci		for (x = 0; x < urb->number_of_packets; x++) {
1638f9f848faSopenharmony_ci			urb->iso_frame_desc[x].actual_length = 0;
1639f9f848faSopenharmony_ci			urb->iso_frame_desc[x].status = urb->status;
1640f9f848faSopenharmony_ci		}
1641f9f848faSopenharmony_ci
1642f9f848faSopenharmony_ci		/* call callback */
1643f9f848faSopenharmony_ci		usb_linux_complete(xfer);
1644f9f848faSopenharmony_ci
1645f9f848faSopenharmony_ci		if (xfer->error == USB_ERR_CANCELLED) {
1646f9f848faSopenharmony_ci			/* we need to return in this case */
1647f9f848faSopenharmony_ci			return;
1648f9f848faSopenharmony_ci		}
1649f9f848faSopenharmony_ci		goto tr_setup;
1650f9f848faSopenharmony_ci	}
1651f9f848faSopenharmony_ci}
1652f9f848faSopenharmony_ci
1653f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1654f9f848faSopenharmony_ci *	usb_linux_non_isoc_callback
1655f9f848faSopenharmony_ci *
1656f9f848faSopenharmony_ci * The following is the FreeBSD BULK/INTERRUPT and CONTROL USB
1657f9f848faSopenharmony_ci * callback. It dequeues Linux USB stack compatible URB's, transforms
1658f9f848faSopenharmony_ci * the URB fields into a FreeBSD USB transfer, and defragments the USB
1659f9f848faSopenharmony_ci * transfer as required. When the transfer is complete the "complete"
1660f9f848faSopenharmony_ci * callback is called.
1661f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1662f9f848faSopenharmony_cistatic void
1663f9f848faSopenharmony_ciusb_linux_non_isoc_callback(struct usb_xfer *xfer, usb_error_t error)
1664f9f848faSopenharmony_ci{
1665f9f848faSopenharmony_ci	enum {
1666f9f848faSopenharmony_ci		REQ_SIZE = sizeof(struct usb_device_request)
1667f9f848faSopenharmony_ci	};
1668f9f848faSopenharmony_ci	struct urb *urb = usbd_xfer_get_priv(xfer);
1669f9f848faSopenharmony_ci	struct usb_host_endpoint *uhe = usbd_xfer_softc(xfer);
1670f9f848faSopenharmony_ci	uint8_t *ptr;
1671f9f848faSopenharmony_ci	usb_frlength_t max_bulk = usbd_xfer_max_len(xfer);
1672f9f848faSopenharmony_ci	uint8_t data_frame = xfer->flags_int.control_xfr ? 1 : 0;
1673f9f848faSopenharmony_ci	uint8_t i = 0;
1674f9f848faSopenharmony_ci	UINTPTR flags;
1675f9f848faSopenharmony_ci
1676f9f848faSopenharmony_ci	DPRINTF("\n");
1677f9f848faSopenharmony_ci
1678f9f848faSopenharmony_ci	switch (USB_GET_STATE(xfer)) {
1679f9f848faSopenharmony_ci	case USB_ST_TRANSFERRED:
1680f9f848faSopenharmony_ci
1681f9f848faSopenharmony_ci		if (xfer->flags_int.control_xfr) {
1682f9f848faSopenharmony_ci			/* don't transfer the setup packet again: */
1683f9f848faSopenharmony_ci
1684f9f848faSopenharmony_ci			usbd_xfer_set_frame_len(xfer, 0, 0);
1685f9f848faSopenharmony_ci		}
1686f9f848faSopenharmony_ci		if (urb->bsd_isread && (!xfer->flags.ext_buffer)) {
1687f9f848faSopenharmony_ci			/* copy in data with regard to the URB */
1688f9f848faSopenharmony_ci			usbd_copy_out(xfer->frbuffers + data_frame, 0,
1689f9f848faSopenharmony_ci			    urb->bsd_data_ptr, xfer->frlengths[data_frame]);
1690f9f848faSopenharmony_ci		}
1691f9f848faSopenharmony_ci		for (i = 0; i < xfer->aframes; i++) {
1692f9f848faSopenharmony_ci			urb->bsd_length_rem -= xfer->frlengths[i];
1693f9f848faSopenharmony_ci			urb->bsd_data_ptr += xfer->frlengths[i];
1694f9f848faSopenharmony_ci			urb->actual_length += xfer->frlengths[i];
1695f9f848faSopenharmony_ci		}
1696f9f848faSopenharmony_ci
1697f9f848faSopenharmony_ci		/* check for short transfer */
1698f9f848faSopenharmony_ci		if (xfer->actlen < xfer->sumlen) {
1699f9f848faSopenharmony_ci			urb->bsd_length_rem = 0;
1700f9f848faSopenharmony_ci
1701f9f848faSopenharmony_ci			/* short transfer */
1702f9f848faSopenharmony_ci			if (urb->transfer_flags & URB_SHORT_NOT_OK) {
1703f9f848faSopenharmony_ci				urb->status = -EPIPE;
1704f9f848faSopenharmony_ci			} else {
1705f9f848faSopenharmony_ci				urb->status = 0;
1706f9f848faSopenharmony_ci			}
1707f9f848faSopenharmony_ci		} else {
1708f9f848faSopenharmony_ci			/* check remainder */
1709f9f848faSopenharmony_ci			if (urb->bsd_length_rem > 0) {
1710f9f848faSopenharmony_ci				goto setup_bulk;
1711f9f848faSopenharmony_ci			}
1712f9f848faSopenharmony_ci			/* success */
1713f9f848faSopenharmony_ci			urb->status = 0;
1714f9f848faSopenharmony_ci		}
1715f9f848faSopenharmony_ci
1716f9f848faSopenharmony_ci		/* call callback */
1717f9f848faSopenharmony_ci		usb_linux_complete(xfer);
1718f9f848faSopenharmony_ci
1719f9f848faSopenharmony_ci	case USB_ST_SETUP:
1720f9f848faSopenharmony_citr_setup:
1721f9f848faSopenharmony_ci		LOS_SpinLockSave(&g_usb_urb_list_spinlock, &flags);
1722f9f848faSopenharmony_ci		/* get next transfer */
1723f9f848faSopenharmony_ci		urb = TAILQ_FIRST(&uhe->bsd_urb_list);
1724f9f848faSopenharmony_ci		if (urb == NULL) {
1725f9f848faSopenharmony_ci			/* nothing to do */
1726f9f848faSopenharmony_ci			LOS_SpinUnlockRestore(&g_usb_urb_list_spinlock, flags);
1727f9f848faSopenharmony_ci			return;
1728f9f848faSopenharmony_ci		}
1729f9f848faSopenharmony_ci		TAILQ_REMOVE(&uhe->bsd_urb_list, urb, bsd_urb_list);
1730f9f848faSopenharmony_ci		urb->bsd_urb_list.tqe_prev = NULL;
1731f9f848faSopenharmony_ci		LOS_SpinUnlockRestore(&g_usb_urb_list_spinlock, flags);
1732f9f848faSopenharmony_ci
1733f9f848faSopenharmony_ci		usbd_xfer_set_priv(xfer, urb);
1734f9f848faSopenharmony_ci		xfer->flags.force_short_xfer = 0;
1735f9f848faSopenharmony_ci		xfer->timeout = urb->timeout;
1736f9f848faSopenharmony_ci
1737f9f848faSopenharmony_ci		if (xfer->flags_int.control_xfr) {
1738f9f848faSopenharmony_ci			/*
1739f9f848faSopenharmony_ci			 * USB control transfers need special handling.
1740f9f848faSopenharmony_ci			 * First copy in the header, then copy in data!
1741f9f848faSopenharmony_ci			 */
1742f9f848faSopenharmony_ci			if (!xfer->flags.ext_buffer) {
1743f9f848faSopenharmony_ci				usbd_copy_in(xfer->frbuffers, 0,
1744f9f848faSopenharmony_ci				    urb->setup_packet, REQ_SIZE);
1745f9f848faSopenharmony_ci				usbd_xfer_set_frame_len(xfer, 0, REQ_SIZE);
1746f9f848faSopenharmony_ci			} else {
1747f9f848faSopenharmony_ci				/* set virtual address to load */
1748f9f848faSopenharmony_ci				usbd_xfer_set_frame_data(xfer, 0,
1749f9f848faSopenharmony_ci				    urb->setup_packet, REQ_SIZE);
1750f9f848faSopenharmony_ci			}
1751f9f848faSopenharmony_ci
1752f9f848faSopenharmony_ci			ptr = urb->setup_packet;
1753f9f848faSopenharmony_ci
1754f9f848faSopenharmony_ci			/* setup data transfer direction and length */
1755f9f848faSopenharmony_ci			urb->bsd_isread = (ptr[0] & UT_READ) ? 1 : 0;
1756f9f848faSopenharmony_ci			urb->bsd_length_rem = ptr[6] | (ptr[7] << 8);
1757f9f848faSopenharmony_ci
1758f9f848faSopenharmony_ci		} else {
1759f9f848faSopenharmony_ci			/* setup data transfer direction */
1760f9f848faSopenharmony_ci
1761f9f848faSopenharmony_ci			urb->bsd_length_rem = urb->transfer_buffer_length;
1762f9f848faSopenharmony_ci			urb->bsd_isread = (uhe->desc.bEndpointAddress &
1763f9f848faSopenharmony_ci			    UE_DIR_IN) ? 1 : 0;
1764f9f848faSopenharmony_ci		}
1765f9f848faSopenharmony_ci
1766f9f848faSopenharmony_ci		urb->bsd_data_ptr = urb->transfer_buffer;
1767f9f848faSopenharmony_ci		urb->actual_length = 0;
1768f9f848faSopenharmony_ci
1769f9f848faSopenharmony_cisetup_bulk:
1770f9f848faSopenharmony_ci		if (max_bulk > urb->bsd_length_rem) {
1771f9f848faSopenharmony_ci			max_bulk = urb->bsd_length_rem;
1772f9f848faSopenharmony_ci		}
1773f9f848faSopenharmony_ci		/* check if we need to force a short transfer */
1774f9f848faSopenharmony_ci
1775f9f848faSopenharmony_ci		if ((max_bulk == urb->bsd_length_rem) &&
1776f9f848faSopenharmony_ci		    (urb->transfer_flags & URB_ZERO_PACKET) &&
1777f9f848faSopenharmony_ci		    (!xfer->flags_int.control_xfr)) {
1778f9f848faSopenharmony_ci			xfer->flags.force_short_xfer = 1;
1779f9f848faSopenharmony_ci		}
1780f9f848faSopenharmony_ci		/* check if we need to copy in data */
1781f9f848faSopenharmony_ci
1782f9f848faSopenharmony_ci		if (xfer->flags.ext_buffer && urb->bsd_isread) {
1783f9f848faSopenharmony_ci			/* set virtual address to load */
1784f9f848faSopenharmony_ci			usbd_xfer_set_frame_data(xfer, data_frame,
1785f9f848faSopenharmony_ci			    urb->bsd_data_ptr, max_bulk);
1786f9f848faSopenharmony_ci		} else if (xfer->flags.ext_buffer && (!urb->bsd_isread)) {
1787f9f848faSopenharmony_ci			if (urb->transfer_agg == 1) {
1788f9f848faSopenharmony_ci				urb->bsd_length_rem = 0;
1789f9f848faSopenharmony_ci				for (i = 0; (i < urb->agg_num) && (i < USB_FRAMES_MAX); i++) {
1790f9f848faSopenharmony_ci					usbd_xfer_set_frame_data(xfer, i, urb->packets[i]->mac_header,
1791f9f848faSopenharmony_ci					    urb->packets[i]->link_len);
1792f9f848faSopenharmony_ci					urb->bsd_length_rem += urb->packets[i]->link_len;
1793f9f848faSopenharmony_ci				}
1794f9f848faSopenharmony_ci			} else {
1795f9f848faSopenharmony_ci				usbd_xfer_set_frame_data(xfer, data_frame, urb->bsd_data_ptr, max_bulk);
1796f9f848faSopenharmony_ci			}
1797f9f848faSopenharmony_ci		} else if (!urb->bsd_isread) {
1798f9f848faSopenharmony_ci			/* copy out data with regard to the URB */
1799f9f848faSopenharmony_ci			usbd_copy_in(xfer->frbuffers + data_frame, 0,
1800f9f848faSopenharmony_ci			    urb->bsd_data_ptr, max_bulk);
1801f9f848faSopenharmony_ci			usbd_xfer_set_frame_len(xfer, data_frame, max_bulk);
1802f9f848faSopenharmony_ci		}else{
1803f9f848faSopenharmony_ci#ifdef LOSCFG_DRIVERS_HDF_USB_DDK_HOST
1804f9f848faSopenharmony_ci            usbd_xfer_set_frame_len(xfer, data_frame, max_bulk);
1805f9f848faSopenharmony_ci#endif
1806f9f848faSopenharmony_ci		}
1807f9f848faSopenharmony_ci		if (xfer->flags_int.control_xfr) {
1808f9f848faSopenharmony_ci			if (max_bulk > 0) {
1809f9f848faSopenharmony_ci				xfer->nframes = 2;
1810f9f848faSopenharmony_ci			} else {
1811f9f848faSopenharmony_ci				xfer->nframes = 1;
1812f9f848faSopenharmony_ci			}
1813f9f848faSopenharmony_ci		} else if ((!urb->bsd_isread) && (urb->transfer_agg == 1)){
1814f9f848faSopenharmony_ci			xfer->nframes = i;
1815f9f848faSopenharmony_ci		} else {
1816f9f848faSopenharmony_ci			xfer->nframes = 1;
1817f9f848faSopenharmony_ci		}
1818f9f848faSopenharmony_ci		usbd_transfer_submit(xfer);
1819f9f848faSopenharmony_ci		return;
1820f9f848faSopenharmony_ci
1821f9f848faSopenharmony_ci	default:
1822f9f848faSopenharmony_ci		if (xfer->error == USB_ERR_CANCELLED) {
1823f9f848faSopenharmony_ci			urb->status = -ECONNRESET;
1824f9f848faSopenharmony_ci		} else {
1825f9f848faSopenharmony_ci			urb->status = -EPIPE;
1826f9f848faSopenharmony_ci		}
1827f9f848faSopenharmony_ci
1828f9f848faSopenharmony_ci		/* Set zero for "actual_length" */
1829f9f848faSopenharmony_ci		urb->actual_length = 0;
1830f9f848faSopenharmony_ci
1831f9f848faSopenharmony_ci		/* call callback */
1832f9f848faSopenharmony_ci		usb_linux_complete(xfer);
1833f9f848faSopenharmony_ci
1834f9f848faSopenharmony_ci		if (xfer->error == USB_ERR_CANCELLED) {
1835f9f848faSopenharmony_ci			/* we need to return in this case */
1836f9f848faSopenharmony_ci			return;
1837f9f848faSopenharmony_ci		}
1838f9f848faSopenharmony_ci		goto tr_setup;
1839f9f848faSopenharmony_ci	}
1840f9f848faSopenharmony_ci}
1841f9f848faSopenharmony_ci
1842f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1843f9f848faSopenharmony_ci *	usb_fill_bulk_urb
1844f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1845f9f848faSopenharmony_civoid
1846f9f848faSopenharmony_ciusb_fill_bulk_urb(struct urb *urb, struct usb_device *udev,
1847f9f848faSopenharmony_ci    struct usb_host_endpoint *uhe, void *buf,
1848f9f848faSopenharmony_ci    int length, usb_complete_t callback, void *arg)
1849f9f848faSopenharmony_ci{
1850f9f848faSopenharmony_ci	int i = 0;
1851f9f848faSopenharmony_ci	urb->dev = udev;
1852f9f848faSopenharmony_ci	urb->endpoint = uhe;
1853f9f848faSopenharmony_ci	urb->transfer_buffer = buf;
1854f9f848faSopenharmony_ci	urb->transfer_buffer_length = length;
1855f9f848faSopenharmony_ci	urb->complete = callback;
1856f9f848faSopenharmony_ci	urb->context = arg;
1857f9f848faSopenharmony_ci
1858f9f848faSopenharmony_ci	if (UE_GET_DIR(uhe->desc.bEndpointAddress) == UE_DIR_OUT) {
1859f9f848faSopenharmony_ci		if (urb->transfer_agg == 1) {
1860f9f848faSopenharmony_ci			for (i = 0; i < urb->agg_num; i++) {
1861f9f848faSopenharmony_ci				usb_dma_cache_flush(urb->packets[i]->dma,
1862f9f848faSopenharmony_ci				    urb->packets[i]->dma_len);
1863f9f848faSopenharmony_ci			}
1864f9f848faSopenharmony_ci		} else
1865f9f848faSopenharmony_ci		usb_dma_cache_flush(buf,length);
1866f9f848faSopenharmony_ci	}
1867f9f848faSopenharmony_ci}
1868f9f848faSopenharmony_ci
1869f9f848faSopenharmony_ci/*------------------------------------------------------------------------*
1870f9f848faSopenharmony_ci *	usb_bulk_msg
1871f9f848faSopenharmony_ci *
1872f9f848faSopenharmony_ci * NOTE: This function can also be used for interrupt endpoints!
1873f9f848faSopenharmony_ci *
1874f9f848faSopenharmony_ci * Return values:
1875f9f848faSopenharmony_ci *    0: Success
1876f9f848faSopenharmony_ci * Else: Failure
1877f9f848faSopenharmony_ci *------------------------------------------------------------------------*/
1878f9f848faSopenharmony_ciint
1879f9f848faSopenharmony_ciusb_bulk_msg(struct usb_device *udev, struct usb_host_endpoint *uhe,
1880f9f848faSopenharmony_ci    void *data, int len, uint16_t *pactlen, usb_timeout_t timeout)
1881f9f848faSopenharmony_ci{
1882f9f848faSopenharmony_ci	struct urb *urb;
1883f9f848faSopenharmony_ci	int err;
1884f9f848faSopenharmony_ci
1885f9f848faSopenharmony_ci	if (uhe == NULL)
1886f9f848faSopenharmony_ci		return (-EINVAL);
1887f9f848faSopenharmony_ci	if (len < 0)
1888f9f848faSopenharmony_ci		return (-EINVAL);
1889f9f848faSopenharmony_ci
1890f9f848faSopenharmony_ci	err = usb_setup_endpoint(udev, uhe, 2048 /* bytes */);
1891f9f848faSopenharmony_ci	if (err)
1892f9f848faSopenharmony_ci		return (err);
1893f9f848faSopenharmony_ci
1894f9f848faSopenharmony_ci	urb = usb_alloc_urb(0, 0);
1895f9f848faSopenharmony_ci	if (urb == NULL)
1896f9f848faSopenharmony_ci		return (-ENOMEM);
1897f9f848faSopenharmony_ci
1898f9f848faSopenharmony_ci	usb_fill_bulk_urb(urb, udev, uhe, data, len,
1899f9f848faSopenharmony_ci	    usb_linux_wait_complete, NULL);
1900f9f848faSopenharmony_ci
1901f9f848faSopenharmony_ci	err = usb_start_wait_urb(urb, timeout, pactlen);
1902f9f848faSopenharmony_ci
1903f9f848faSopenharmony_ci	usb_free_urb(urb);
1904f9f848faSopenharmony_ci
1905f9f848faSopenharmony_ci	return (err);
1906f9f848faSopenharmony_ci}
1907f9f848faSopenharmony_ci
1908f9f848faSopenharmony_cichar*
1909f9f848faSopenharmony_ciusb_alloc_dma(int length)
1910f9f848faSopenharmony_ci{
1911f9f848faSopenharmony_ci	return memalign(USB_CACHE_ALIGN_SIZE, SKB_DATA_ALIGN(length));
1912f9f848faSopenharmony_ci}
1913f9f848faSopenharmony_ci
1914f9f848faSopenharmony_civoid
1915f9f848faSopenharmony_ciusb_free_dma(char* buf)
1916f9f848faSopenharmony_ci{
1917f9f848faSopenharmony_ci	free(buf);
1918f9f848faSopenharmony_ci}
1919f9f848faSopenharmony_ci
1920f9f848faSopenharmony_ci#undef USB_DEBUG_VAR
1921